SILABUS MATA KULIAH TEKNIK INDUSTRI ITS KURIKULUM

SILABUS MATA KULIAH TEKNIK INDUSTRI ITS KURIKULUM 2009-2013 Silabus ini diperuntukkan bagi mahasiswa dan pihak lain yang berkepentingan. Tidak diperkenankan untuk disalahgunakan atau dirubah isinya. To provide an excellent, fair, and valuable academic process Pengajaran 8/15/2011

FAKULTAS TEKNOLOGI INDUSTRI The Faculty of Industrial Technology

Program Studi Department Jenjang Pendidikan Programme

JURUSAN TEKNIK INDUSTRI Industrial Engineering

PROGRAM SARJANA Undergraduate (S1)

KOMPETENSI UTAMA: • Perancang Sistem • Ketrampilan Sintesis, integrasi, dan perancangan • Ketrampilan Manajerial • Ketrampilan memecahkan masalah Kompetensi Lulusan

KOMPETENSI PENDUKUNG • Intrapersonal dan kemampuan berkomunikasi • Ketrampilan memanfaatkan teknologi informasi • Penguasaan bahasa Inggris dan atau bahasa asing lainnya KOMPETENSI LAINNYA • Kemampuan mengakomodasikan isu lingkungan dan keberlanjutan • Kemampuan berinovasi CORE COMPETENCIES • System designer • Synthesizing, integrating, and designing skills • Managerial skills • Problem solving skills

Graduate Competence

SUPPLEMENTARY COMPETENCIES • Intrapersonal and communication skills • Proficiency in ICT • Proficiency in English and or other language OTHER COMPETENCIES • Abilityto accommodate sustainabilities • Innovation skills

environmental

issues

&

STRUKTUR KURIKULUM/COURSE STRUCTURE No.

Kode MK Code SEMESTER I 1 IG091306

Nama Mata Kuliah (MK) Course Title

Pendidikan Kewarganegaraan Civic 2 TI091201 Pengantar Ilmu Ekonomi Introduction to Economics 3 SF091201 Fisika Dasar I Basic Physics I 4 SM091201 Kalkulus I Calculus I 5 TI091202 Menggambar Teknik Engineering Drawing 6 TI091203 Pengetahuan Bahan Teknik Introduction to Engineering Materials 7 TI091301 Pengantar Teknik Industri Introduction to Industrial Engineering Jumlah sks/Total of credits SEMESTER II 1 IG091308 Bahasa Inggris I English I 2 TI091204 Algoritma dan Pemrogaman Komputer Algorithms and Computer Programming 3 SF091205 Fisika Dasar II Basic Physics II 4 SM091202 Kalkulus II Calculus II 5 TI091206 Mekanika Teknik Engineering Mechanics 6 TI091302 Proses Manufaktur Manufacturing Process 7 TI091303 Statistik Industri I Industrial Statistik I Jumlah sks/Total of credits SEMESTER III 1 IG091309 Pengantar Ilmu Lingkungan Introduction to Environmental Science 2 TI091207 Analisis dan Estimasi Biaya Cost Analysis and Estimation 3 TI091208 Matematika Optimasi I Optimization Mathematics I 4 TI091209 Otomasi Industri Industial Automation 5 TI091204 Statistik Industri II Industrial Statistics II 6 TI091305 Ergonomi dan Perancangan Sistem Kerja Ergonomics and Work Design 7 TI91210 Termodinamika Thermodynamics Jumlah sks/Total of credits

Sks Credits 2 2 3 3 2 3 3 18 2 3 2 3 2 3 3 18 2 3 3 2 3 3 2 18

SEMESTER IV 1 IG091307 2

TI091101

3

TI091306

4

TI091307

5

TI091308

6

TI091309

SEMESTER V 1 IG09130X 2

TI091310

3

TI091311

4

TI091312

3

TI091313

6

TI091314

SEMESTER VI 1 TI091211

Bahasa Indonesia Indonesian (Language) Matematika Optimasi 2 Optimization Mathematics 2 Penelitian Operasional I Operations Research I Teknik Tata Cara dan Pengukuran Kerja Methods Engineering and Work Measurement Manajemen Proyek Manufacturing System Sistem Manufaktur Manufacturing System Jumlah sks/Total of credits Agama Religion Education Penelitian Operasional 2 Operations Research 2 Ekonomi Teknik Engineering Economics Perencanaan dan Pengendalian Produksi Production Planning and Control Perancangan Fasilitas Facilities Planning Perancangan dan Pengembangan Produk Products Design and Development Jumlah sks/Total of credits

Manajemen Organisasi dan SDM Organization and Human Resource Management 2 TI091315 Permodelan Sistem System Modeling 3 TI091316 Teknik Pengendalian Kualitas Quality Control Techniques 4 TI091317 Simulasi Sistem Industri Industrial System Simulation 5 TI091318 Manajemen Logistik Logistics Management 6 TI091319 Perancangan Sistem Industri Industrial Sistem Design 7 TI09XXXX Metode dan Komunikasi Ilmiah Scientific method communication Jumlah sks/Total of credits SEMESTER VII 1 TI091320 Pemeliharaan dan Teknik Keandalan Reliability Techniques and Maintenance 2 TI0914XX Pilihan I Elective Course 1 3 TI0914XX Pilihan 2 Elective Module 2 4 TI0914XX Pilihan 3 Elective Module 3

2 3 3 3 2 4 18 2 4 3 4 3 3 19 4 2 3 3 3 3 0 18 3 3 3 3

5

TI091321

6

TI091322

SEMESTER VIII 1 IG091311 2

TI0914XX

3

TI0914XX

4

TI0914XX

5

TI091323

6

TI091324

Perancangan Sistem Informasi Business Information System Design for Business Analisis dan Perancangan Usaha Business Design and Analysis Jumlah sks/Total of credits Pengantar Technopreneurship Introduction to Technopreneurship Pilihan 4 Elective Module 4 Pilihan 5 Elective Module 5 Pilihan 6 Elective Module 6 Kerja Praktek Internship Tugas Akhir Final Project Jumlah sks/Total of credits

3 3 18 2 3 3 3 2 5

SILABUS KURIKULUM/COURSE SYLLABUS

MATA KULIAH/ COURSE TITLE

TUJUAN PEMBELAJAR AN/LEARNING OBJECTIVES

KOMPETENSI/ COMPETENCI ES

POKOK BAHASAN/SU BJECTS

PUSTAKA UTAMA/

TI091201 : Pengantar Ilmu Ekonomi TI091201 :Introduction to Economics Credits: 2 Semester: I Mengenal dan memahami konsep dasar ilmu ekonomi, baik secara makro maupun mikro. To understand the basic concept of microeconomics and macroeconomics as well. • • •

Perancang sistem Keterampilan manajerial Intrapersonal dan kemampuan berkomunikasi

• • •

System designer Managerial skills Intrapersonal and communication skills

1. Konsep dan Pengertian Dasar Ilmu Ekonomi. 2. Teori Ekonomi :Permasalahan dalam Ekonomi,Hukum Kelangkaan dan Pemilihan, Teori Permintaan dan Penawaran. 3. Teori Ekonomi Mikro dan Makro, Struktur Pasar, meliputi : Monopoli, Oligopoli, Persaingan Sempurna dll 4. Teori Produksi dan Biaya-Biaya, Konsumsi, Tabungan dan Investasi, Pertumbuhan dan Perkembangan Ekonomi, Pendapatan Nasional : Konsep, Perhitungan dan Distribusi 5. Kebijakan Fiskal dan Kebijakan Moneter. 1. Basic concept of economics 2. The theory of economics: issues in economics, scarcity law and selection, demand and supply functions. 3. Macroeconomics and microeconomics theory, market structure; includes: monopoly, oligopoly, and monopolistic competition. 4. Production and cost theory, consumption, saving and investment, economics development and growth, national income: the concept, calculation, and distribution. 5. Fiscal and monetary policy. 1. Samuelson, Paul A. (1989). Economics. Tokyo : Mc Graw-Hill Kogakusha Ltd. 2. Russel, R and M. Wilkonson (1979). Microeconomics : A

REFERENCES


Synthesis of Modern and Neoclassical Theory. John Willey and Sons, New York. 3. Agus Salim, Soeharsono S dan Ali Basyah Siregar (1997). Analisis Tekno Ekonomi. Program Pasca Sarjana ITB Bandung. 4. Nellis, J.G; D. Parker (2000). The Essence of the Economy. Prentice Hall International.

TI091202 : Menggambar Teknik TI091202 :Engineering Drawing Credits: 2 Semester: I

TUJUAN PEMBELAJARAN/LEARNING OBJECTIVES

Dalam mata kuliah ini mahasiswa dibimbing untuk mengenal dan memahami kegunaan alat-alat gambar, aturan-aturan dasar yang dipergunakan untuk mewujudkan gambar teknik serta mampu membaca gambar dan membayangkan bentuk gambar tersebut untuk kepentingan proses produksi maupun pengembangan produk. Selain itu juga memberikan pemahaman tentang aplikasi CAD (Computer Aided Design) dalam mewujudkan gambar utuh. In this course students are guided to know and understand the use of drawing equipments, basic rules used to realize engineering drawing, as well as how to interpret an engineering drawing and imagine the shape of the drawing for production process purpose and product development. Also discussed in this course is the application of Computer Aided Design (CAD) to create a full drawing of an object. •

KOMPETENSI/COMPETENCY

POKOK BAHASAN/SUBJECTS

• •

Ketrampilan Sintesis, integrasi, dan perancangan Ketrampilan memanfaatkan teknologi informasi Kemampuan berinovasi

• • •

Synthesizing, integrating, and designing skills Proficiency in ICT Innovating skills

• Pengantar menggambar teknik • Pengumpulan informasi dan data suatu gambar produk

• Ide rancangan produk dan mewujudkannya dalam sketsa awal • Pematangan konsep rancangan produk sesuai dengan standar internasional menggambar teknik • Mewujudkan rancangan produk dalam visualisasi yang lebih lengkap dan komunikatif. • Introduction to Engineering Drawing • Information gathering of an object or product for drawing purpose • Idea generation and how visualize it in a sketch • Concept enhancement using the international standard of engineering drawing • Design visualization and a more complete and communicative way.

PUSTAKA UTAMA/REFERENCES


1. Groover, Mikell P and E.W, JR., CAD/CAM : Computer Aided Design and Manufacturing, Prentice Hall, 1987 2. Jensen, C.H., and Helsaed, Fundamentals of Engineering Drawing, Mac Graw Hill Co., 1987 3. Luzadder, Waren J., Fundamentals of Engineering Drawing (With an Introduction to Interactive Computer Graphic for Design and Production), 9th edition, Prentice Hall, 1986 4. Sato, Takeshi G., dan N. Sugiharso H., Menggambar Mesin Menurut Standar ISO, Pradnya Paramitha, 1996

TI091301 : Pengantar Teknik Industri TI091301 :Introduction to Industrial Engineering Credits: 2 Semester: I


Mata kuliah ini bertujuan untuk memberikan pemahaman kepada mahasiswa mengenai latar belakang, ruang lingkup, dan perkembangan disiplin teknik industri, pemahaman tentang kebutuhan dunia kerja terhadap profesi seorang sarjana teknik industri dalam hal hard dan soft skills. Termasuk di dalam mata kuliah ini adalah kerangka keilmuan teknik industri, pengertian sistem dan konteksnya sehingga mahasiswa

dapat menjelaskan cara berpikir system. This course provides students with understanding of the background, scope, and development of industrial engineering discipline, understanding about competencies requirements of an industrial engineer profession in terms of hard and soft skills. It includes industrial engineering science framework, system definition and its context so that students will be able to explain system thinking. • • KOMPETENSI/COMPETENCY


•

Perancang Sistem Ketrampilan Sintesis, perancangan Ketrampilan Manajerial

• • •

System designer Synthesizing, integrating, and designing skills Managerial skills

integrasi,

dan

• Student Centered Learning (SCL), Basic Learning Skills • Sejarah perkembangan teknik industri, konsep ruang lingkup, dan peranan disiplin teknik industri • Profil dan kompetensi sarjana teknik industri • Konsep sistem dan pendekatan sistem, pendekatan bisnis proses terintegrasi dengan CIMOSA, Macro interactions • Kerangka keilmuan dan building blocks teknik industri, kerangka sistem manufaktur dan sistem industri jasa, kerangka proses pengembangan produk, kerangka proses get order dan order fulfillment • Student Centered Learning (SCL), Basic Learning Skills • History of industrial engineering development, scope concept, and roles of industrial engineering discipline • Profile and competencies requirements of Industrial Engineer • The concept of system and system approaches, integrated business process approach by CIMOSA, Macro interactions • Industrial engineering science framework and building blocks, manufacturing and services

industries system frameworks, product development process framework, get order and order fulfillment process framework.



1. Wignjosoebroto, S. (2003) Pengantar Teknik dan Manajemen Industri, Guna Widya, Surabaya. 2. Turner, W. (1993) Introduction to Industrial and System Engineering, Prentice Hall, New York. 3. Hicks, P. E. (1994) Industrial Engineering and Management: A New Perspective, McGraw-Hill, Tokyo. 4. Daellenbach, H. G. & McNickle, D. C. (2005) Management Science: Decision Making through Systems Thinking, Palgrave Macmillan, New York.

TI091204 : Algoritma dan Pemograman Komputer TI091204 : Algorithms and Computer Programming Credits: 3 Semester: II


Memahami jenis bahasa-bahasa pemrograman, tujuan penggunaannya, serta aplikasinya untuk merealisasikan algoritma-algoritma penyelesaian masalah tertentu. Lebih lanjut, mata kuliah ini bertujuan untuk mengembangkan kemampuan pemanfaatan teknologi komputer dan informasi untuk perancangan, perbaikan, pemasangan dan pengoperasian sistem terintegrasi. To provide students with an understanding of types of programming language, its purposes, and applications to realize algorithms as solving methods. It aims to develop students’ ability in ICT implementation for designing, improving, installing, and operating integrated system.


• • •

Keterampilan memecahkan masalah Keterampilan memanfaatkan teknologi informasi Ketrampilan analisis

•

Problem solving skills




• •

Proficiency in ICT Analytical skills

•

Dasar-dasar bahasa pemograman

•

Programming language and its foundation

N/A

TI091302 : Proses Manufaktur TI091302 :Manufacturing Process Credits: 3 Semester: II


Mata kuliah ini membahas tentang proses-proses yang ada dalam industri manufaktur khususnya yang memproduksi barang atau komponen yang diskrit. Disajikan pula tentang design for manufacture yang ditujukan untuk mendapatkan rancangan proses manufaktur yang paling efisien untuk membuat produk tersebut. This course discusses about production process in manufacturing industry, especially those with discrete products or components. It also provides students with design for manufacture of which aims to obtain the best manufacturing design that is most efficient in producing certain product. • •



•

Perancang Sistem Ketrampilan Sintesis, integrasi, perancangan Ketrampilan memecahkan masalah

• • •

System designer Synthesizing, integrating, and designing skills Problem solving skills

•

Pengecoran, pembentukan: pembentukan kondisi panas dan pembentukan kondisi dingin. Permesinan dan metalurgi serbuk Teknologi non-logam.

• •

dan

•

• • • • •

•



Permesinan non tradisional: chemical machining, electrochemical grinding, EDM, Water Jet Machining, Laser Beam Machining, DFM, dll. Pengelasan dan perakitan mekanis. Casting, forming: hot forming and cold forming. Machining and powder metallurgy. Non-metal technology. Non-conventional machining: chemical machining, electrochemical grinding, EDM, Water Jet Machining, Laser Beam Machining, DFM, etc. Welding and mechanical assembly.

1. De Garmo, E. P.D. (1979), Material and Processes in Manucturing, New York, Collier Mc Millan Publ, 2. Kalpakjan, Seroke (1995), Manufacturing Engineering and Technology, Third Edition, Addison-Wesley Pub. Company, 3. Pandey, PC. (1983), Modern Manufacturing Processes, Second Edition, Tata Mc. Graw Hill Publishing Company Ltd. 4. Geough, JA. (1988), Advanced Methods of Machining, First Edition, Chapman and Hall Ltd. 5. Gershwin, Stanley B. (1994), Manufacturing Systems Engineering , Prentice Hall. 6. Schey, John A. (1987), Introduction to manufacturing Processes Second Edition, Mc Graw-Hill Book Co.

TI091303 : Statistik Industri I TI091303 :Industrial Statistics I Credits: 3 Semester: II


Memahami dan menguasai cara-cara untuk mendapatkan berbagai macam data (sampling), mendeskripsikan data (statistik deskriptif) dan mengambil kesimpulan terhadap data. Memahami dan menguasai tentang teori kemungkinan (probabilitas), distribusi probabilistik baik diskrit maupun kontinyu.

Memahami dan mampu menerapkan konsep statistik inferensi, khususnya estimasi parameter. To provide students with an understanding of various methods to obtain samples (sampling methods), ability to describe data (descriptive statistics) and to draw conclusion regarding the data. It reviews probability theory, probabilistic distribution both discrete and continuous. It aims to develop students’ ability to understand and implement the concept of inferential statistics, especially parameter estimation. • • KOMPETENSI/COMPETENCY


•


• • •

Problem solving skills Proficiency in ICT Analytical skills

• Pengertian statistik deskriptif dan statistik inferensial • Distribusi Sampling dan Teorema Limit Pusat • Konsp Ilmu Peluang (probabilitas) dan distribusi frekuensi • Jenis-jenis distribusi probabilitas, baik diskrit maupun kontinyu, seperti : Binomial, Poisson, Geometric, Hipergeometrik, Eksponensial, Weibull, Normal • Estimasi parameter dan selang kepercayaan • Descriptive and inferential statistics review • Sampling distribution and Central Limit Theorem • Probability concept and frequency distribution • Probability distributions (discrete & continuous): Binomial, Poisson, Geometric, Hypergeometric, Weibull, and Normal distribution.


• Walpole, R.E, Raymond H. Myers, S.H.

•

Myers, Keying Ye, Probability and Statistics for Engineers and Scientists 7th ed, New Jersey, Prentice Hall Inc., 2002. Ross, Sheldon, A First Course in Probability

4th ed., Prentice Hall Int, 1994.

• Kvanli, Alan H, R.J Pavur, K. B. Keeling, • •


Introduction to Business Statistics 6th ed., Thomson South Western, 2003. Mendenhall, William, Terry Sincich, Statistic for Engineering and the Sciences 4th ed., Prentice Hall International Inc., 1995. Iman, Ronald L. & J Conover, Modern Business Statistics, New York, John Wiley and Sons, 1983.

TI091207 : Analisis dan Estimasi Biaya TI091207 :Cost Estimation and Analysis Credits: 3 Semester: III


Analisis biaya adalah mata kuliah yang akan memberikan mahasiswa mengenai wawasan dan pengetahuan mengenai hal-hal yang terkait dengan keuangan perusahaan, dimulai dari proses akuntansinya hingga melakukan analisis penggunaan laporan akuntansi tersebut.Tujuan kuliah ini untuk memberikan pemahaman dasar kepada mahasiswa tentang konsep dasar proses akuntansi keuangan mulai dari transaksi, jurnal, buku besar sampai dengan laporan keuangan, memberikan pemahaman dasar tentang biaya dan perilakunya serta pembebanannya sesuai dengan jenis industrinya, memberikan pemahaman dasar tentang sistem biaya berbasis aktivitas dan pengelolaan usaha berbasis aktivitas,mengevaluasi dan menganalisa kinerja keuangan usaha atas dasar laporan akuntansi dan menggunakan akuntansi sebagai alat untuk memahami bisnis/usaha. The course provides students with knowledge of aspects related to corporates’ financial, from the accounting process to the analysis of accounting reports. It aims to give students undertanding about basic concept of financial accounting reports including transaction, journals, ledger, and accounting reports. It also discusses about various costs, cost’s behaviour and allocation based on the type of industry. Furthermore, the course explores about activity based cost,

managing activity based business, evaluating and analyzing financial performance based on accounting reports and use it as a medium to understand a business.


• • •

Keterampilan memecahkan masalah Ketrampilan manajerial Perancang sistem

• • •

Problem Solving Skills Managerial Skills System Designer

• •

Akuntansi dan kegiatan usaha. Analisa transaksi, konsep penandingan dan proses penyesuaian, siklus akuntansi, sistem akuntansi dan pengendalian internal. Konsep tentang biaya dan perilakunya, estimasi biaya dan analisis varian. Sistem biaya atas dasar pesanan, sistem biaya atas dasar proses, dan sistem biaya atas dasar aktifitas. Analisis laporan keuangan.

• • POKOK BAHASAN/SUBJECTS

• • • • • •


MATA KULIAH/

Accounting and business activity. Transactiona analysis, comparison method and adjusting process, accounting cycle, accounting system, and internal control. The concept of cost and its behaviour, cost estimation and variance analysis. Order based costing, process based costing, and activity based costing. Financial report analysis.

1. Jones, K.H., “Introduction to Financial Accounting, A User Perspective”, Prentice Hall, 2004. 2. Hilton, “Managerial Accounting”, 5th, McGraw Hill, 2008. 3. Grant & Bell, “Basic Accounting & Cost Accounting”, 2nd, McGraw Hill, 1964. 4. Gray & Rickets, “Cost & Managerial Accounting”, McGraw Hill, 1982. 5. Soemarso, S.R., “Akuntansi Suatu Pengantar”, Salemba Empat, 2007.

TI091208 : Matematika Optimasi I

COURSE TITLE

TI091208 :Optimization Mathematics I Credits: 3 Semester: III


Mata kuliah ini mengenalkan mahasiswa dengan teknik dasar aljabar linier, termasuk didalamnya topik-topik tentang vector, matriks, vector space dan subspace, dan linear transformations. Mahasiswa diajak menggeluti mathematical reasoning, proofs, dan abstract structures. The course provides students with basic techniques of linear algebra, including topics related to vectors, matrices, vector spaces and subspaces, and linear transformations. It critically reviews mathematical reasoning, proofs, and abstract structures. • •



•

Keterampilan memecahkan masalah Ketrampilan memanfaatkan teknologi informasi Perancang sistem

• • •

Problem solving skills Proficiency in ICT System designer

Sistem Persamaan Linier, Metode Eliminasi, Matriks dan Operasi-operasinya, Ekspansi Kofaktor, Determinan, Aturan Cramer, Vektor, Dot Product, Proyeksi Orthogonal, Cross Product , Scalar, Triple Product, Kombinasi Linier, Merentang (Span), Vektor Bebas Linier, Koordinat , Basis dan Dimensi, Proses GramSchmidt, Dekomposisi QR, Least Squares Fitting to Data, Perubahan Basis, Nilai Eigen dan Vektor Eigen, Diagonalisasi, Diagonalisasi Orthogonal, Transformasi Linier Secara Umum, Kernel dan Range, Invers, Transformasi Linier, Matriks Transformasi, Similaritas. Linear equation system, Elimination methods, Matrix and its operations, Cofactor Expansion, Determinant, Cramer rule, Vector, Dot Product, Orthogonal Projection, Cross Product, Scalar, Triple Product, Linear Combination, Span, Linear

Free Vector, Coordinate, Basis and Dimension, Gram-Schmidt Process, QR Decomposition, Least square fitting to data, Basis Change, Eigen value and Eigen vector, Diagonalization, Orthogonal diagonalization, General Linear Transformation, Kernel and Range, Inverse, Linear Transformation, Transformation Matrix, Similarity. PUSTAKA UTAMA/REFERENCES


Anton H., Elementary Linear Algebra 9th Edition, Wiley Linear Algebra Jim Hefferon, Ebook.

TI091209 : Otomasi Industri TI091209 :Industrial Automation Credits: 2 Semester: III


Kuliah ini memberikan pemahaman tentang peran otomasi dalam mendukung proses bisnis di bidang manufaktur dan jasa serta pengetahuan dasar suatu sistem otomasi. Pada akhir perkuliahan mahasiswa diharapkan mampu mengidentifikasi kebutuhan otomasi serta menganalisa aspek teknis dan non teknis perancangan sistem otomasi dalam suatu sistem manufaktur dan jasa. This course provides students understanding about the roles of automation to support business process in manufacturing and services as well as the basic knowledge of automation system. By the end of the course students are expected to show their capabilities to identify the requirements of automation and to analyze technical and non-technical aspects in automation system design of manufacturing and services. • • •


• •

System designer Synthesizing, integrating, and designing skills


integrasi,

dan

•

Managerial skills

•

Pengantarotomasi industri, jenis-jenis dan level otomasi, penerapan otomasi pada sistem industri manufaktur. Logika otomasi, sensor, aktuator, komponen sistem kontrol, dan hasil-hasil proses sensing. Fuzzy logic control, sistem kendali, ladder diagram. Elektronika dan microprocessor. Perancangan otomasi industri.

• •


• • • • • • •



Introduction to industrial automation, automation types and levels, automation application in manufacturing. Automation logic, censor, actuator, components of control system, sensing process output. Fuzzy logic control, control system, ladder diagram. Electronics and microprocessors. Design of industrial automation.

1. Groover, MP 2001, Automation, Production Systems, and Computer – Integrated nd edition, Prentice Hall, Manufacturing, 2 New Jersey 2. Soloman, S 1994, Sensors and Control Systems in Manufacturing, McGraw-Hill, New York 3. Toncich, DJ 1993, Data Communications and Networking for Manufacturing Industries, Chrystobel Engineering, Brighton 4. Toncich, DJ 1994, Computer Architecture and Interfacing to Mechatronic Systems, Chrystobel Engineering, Brighton 5. http://oeiwcs.omron.com/ 6. http://www.autodev.com/ADI_Catalog/I1.htm 7. http://www.roboticsonline.com 8. http://www.seikorobots.com

TI091304 : Statistik Industri II TI091304 :Industrial Statistics II Credits: 3 Semester: III


Memahami dan memiliki kemampuan dalam menggunakan salah satu metode pengambilan keputusan dalam statistik inferensial, yaitu pengujian hipotesa baik parametrik maupun nonparametrik, Memiliki kemampuan serta mampu membangun model-model hubungan antar variabel baik yang bersifat univariate maupun multivariate, Memahami konsep analisis variansi sebagai dasar pembuatan suatu rancangan eksperimen serta memahami dan mampu menerapkan beberapa teknik dalam analisa data kategorial. The course is designed to provide students with an understanding and ability to use one of decision making methods using inferential statistics, including parametric hypothesis testing and non parametric. By the end of the course, students are expected to be able to build intervariables relationship models both univariate and multivariate, to understand variance analysis concept as a foundation to build experiments design, and to be able to implement categorical data analysis techniques. • •


•


• • •


• POKOK BAHASAN/SUBJECTS

• • •

Uji Hipotesa, meliputi : Uji Satu Arah dan Dua Arah Statistik Non-Parametrik dan Penerapan Uji Chi-Square dalam Analisa Data Kategori Analisa Regresi, meliputi Model Regresi dan Metode Estimasi Parameter dalam Model Regresi Analisis Variansi (ANOVA), meliputi : One Way ANOVA dan Two Way ANOVA

•

Multivariate Analysis, meliputi : Analisa Faktor, Analisa Kluster, Analisa Diskriminan dan Analisa Komponen Utama

•

Hypothesis tests: one way test and two way tests Non parametric statistics and Chi-Square and categorial data analysis implementation Regression analysis; it includes Regression Model and Parameter Estimation Method in Regression Model Analysis of Variance (ANOVA) consists of one way ANOVA and two way ANOVA Multivariate analysis, including: Factor Analysis, Cluster Analysis, Discriminant Analysis, and Main Compononent Analysis.

• • • •

• Dillon, • • PUSTAKA UTAMA/REFERENCES

• • •


TUJUAN

William R, Matthew Goldstein, Multivariate Analysis, Canada, John Wiley and Sons, 1984. Iman, Ronald L. & J Conover, Modern Business Statistics, New York, John Wiley and Sons, 1983. Kvanli, Alan H, R.J Pavur, K. B. Keeling, Introduction to Business Statistics 6th ed., Thomson South Western, 2003. Mendenhall, William, Terry Sincich, Statistic for Engineering and the Sciences 4th ed., Prentice Hall International Inc., 1995. Sprent, P., Applied Nonparametric Statistical Methods, Chapman and Hall, 1989. Walpole, R.E, Raymond H. Myers, S.H. Myers, Keying Ye, Probability and Statistics for Engineers and Scientists 7th ed, New Jersey, Prentice Hall Inc., 2002.

TI091305 : Ergonomi dan Perancangan Sistem Kerja TI091305 :Ergonomics and Work Design Credits: 3 Semester: III Kuliah

ini

memberikan

pemahaman

bagi

PEMBELAJARAN/LEARNING OBJECTIVES

mahasiswa aspek-aspek mengenai kemampuan, kelebihan serta keterbatasan manusia untuk berinteraksi dengan sistem kerjanya sehingga dapat merancang sistem kerja yang ergonomis dimana sistem kerja tersebut memungkinkan manusia dapat bekerja secara efektif, nyaman, aman, sehat, dan efisien. This course provides students with knowledge about human strengths and limitations in interacting within her/his work system and based on this knowledge, students can design a work system where human is effectively, comfortably, safely, healthy, and efficiently doing their jobs. • •


•


• • •


•

Pengantar dan definisi ergonomi, latar belakang historis dan pengembangannya. Peranan manusia sebagai komponen sistem manusia-mesin. Pengaruh kemampuan dan keterbatasan manusia baik secara fisik maupun dari segi mental psikologis kerja. Perancangan sistem dan pengembangan metode kerja guna mengefektikan serta mengefisienkan kerja. Praktikum ergonomi di Laboratorium Ergonomi Industri.

• • • POKOK BAHASAN/SUBJECTS

• • • • • •

integrasi,

dan

Introduction and definition; historical background and recent development of ergonomics. Human role as one of human-machine system components. Human strength and limitations: physically and mentally. System design and work method development. Practicum.

• • • PUSTAKA UTAMA/REFERENCES • •


Granjean, E. Fitting The Tasl To The Man : An Ergonomic Approach, London : Taylor & Francis Ltd., 1982. McCormick, Ernest J and Sanders, Human Factors In Engineering And Design, New York : McGraw-Hill Book Co., 1992. Nurmianto, Ergonomi : Konsep Dasar dan Aplikasinya(Ergonomics : Basic Principles and Applications), Jakarta : Guna Widya, 1996. Pulat,Mustafa, Fundamentals of Industrial Ergonomics, New Jersey : Prentice Hall, 1992. Wickens, Christopher D.; Gordon, Sallie E.; Liu, Yili, An Introduction to Human Factors Engineering, New York : Addison Wesley Longman, 1998.

TI091101 : Matematika Optimasi II TI091101 :Optimization Mathematics II Credits: 3 Semester: IV


Mengenalkan mahasiswa dengan berbagai kelas optimasi dengan pembatas, bisa menyelesaikannya baik dengan manual maupun program komputer sederhana. To provide students with an understanding of various constrained optimization classes as well as the solving methods which can be applied either manually or using simple computer programs. • •


•


• • •


• • POKOK BAHASAN/SUBJECTS



• • •

Direct search and gradient based search Constrained optimization: Lagrange problem, karush khun tucker condition Linearization method for constrained problems Metoda dekomposisi Interior point method :Primal-Dual Solutions and Central Path, Primal Affine-Scaling Method, Primal Newton Barrier Method, Primal-Dual Interior-Point Methods

• Reklaitis, Ravindran. Engineering optimization, Wiley and Sons. • Watkins D.S.Fundamental of Matrix computations, John Wiley and Sons. • Venkataraman,Optimizations with Matlab, , Wiley and Sons. • Budi Santosa. Matlab untuk statistika dan teknik optimasi, Graha Ilmu.

TI091306: Penelitian Operasional I TI091306:Operations Research I Credits: 3 Semester: IV


Mahasiswa mampu memahami konsep dasar dan metode penyelesaian permasalahan persamaan linear, pemrograman linear serta aplikasi-aplikasi programa linear dalam permasalahan Transportasi dan Penugasan dan Network Flows Problem. To provide students with an understanding of basic concept and linear equation problem solving methods, linear programming (LP), and LP applications especially Transportation, Assignment, and Network Flow Problems.


• •

Keterampilan memecahkan masalah Keterampilan memanfaatkan teknologi informasi


•

Ketrampilan analisis

• • •


• • •

Pengertian dan operasi dasar vektor Pengertian dan operasi dasar matriks Pengantar permodelan yang bersifat deterministik Metode simplex, dualitas, dan sensitivitas Permasalahan transportasi, penugasan dan network flow

• • • • • • •

Vector: an overview and basic operations Matrix: an overview and basic operations An introduction to deterministic modeling Simplex method, duality, and sensitivity Transportation, Assignment, and Network Flow Problems.

• Bazaraa, Mokhtar S,Linear Programming and PUSTAKA UTAMA/REFERENCES



Network Flows 2nd edition, John Wiley & Sons Inc. • Taha, Hamdy A, “Operations Research: An Introduction”, Prentice Hall Education, 7th Ed • Hillier, F. S. and G. J. Lieberman, Introduction to Operations Research, McGraw-Hill Science, 2002.

TI091307 : Teknik Tata Cara dan Pengukuran Kerja TI091307 :Methods Engineering and Work Measurement Credits: 3 Semester: IV

TI091308 : Manajemen Proyek TI091308 :Project Management Credits: 2 Semester: IV

TUJUAN PEMBELAJARAN/LEARNING

Tujuan umum mata kuliah ini adalah membangun kemampuan mahasiswa untuk

OBJECTIVES

mengaplikasikan metode-metode atau teknikteknik dalam pengelolaan proyek dalam rangka memenuhi tujuan proyek, yaitu tepat waktu, tepat anggaran, dan pemenuhan ruang lingkup proyek. Mata kuliah ini mendalami segala aspek yang berkaitan dengan proyek mulai dari konsep dasar proyek, perbedaan karakteristiknya dengan pekerjaan atau program dalam suatu perusahaan, serta segala sesuatu mengenai pengelolaan proyek baik aspek teknis maupun manajerial. The course aims to build students skills to apply the methods or techniques of managing projects in achieving project’s goals, which are: on time delivery, on the right costs, and fulfilling the scope of the projects. This course discusses in depth about various aspects related in a project that include basic concepts of project, project characteristics and the differences in comparison with program in a company, and projects management in terms of technical and managerial aspects. •

KOMPETENSI/COMPETENCIES

• •

Ketrampilan Sintesis, integrasi, perancangan Ketrampilan Manajerial Ketrampilan memecahkan masalah

• • •

Synthesizing, integrating, and designing skills Managerial skills Problem solving skills

• •

Pengantar manajemen proyek Organisasi proyek: struktur, budaya, dan stakeholder management Seleksi proyek, perencanaan proyek, dan penjadwalan proyek Pengalokasian sumber daya, manajemen resiko, kepemimpinan dan optimisasi proyek. Pengendalian proyek dan aspek-aspek lain dalam manajemen proyek


• • • •

dan

Introduction to project management Project organization: structure, cultures, and stakeholder management

• • •

1. Gray & Larson (2004). Project Management, the Managerial Process, Mc Graw Hill, Boston. 2. Kerzner, H. (2003). Project Management: A systems approach to planning, scheduling, and controlling. Eight Edition, John Wiley & Sons, Inc. 3. Santosa, Budi (1997). Manajemen Proyek, Guna Widya, Edisi 1 cetakan 2.



Projects selection, project planning and scheduling Resources allocation, risk management, leadership and project optimization. Project control and other aspects in project management.

TI091309 : Sistem Manufaktur TI091309 :Manufacturing System Credits: 4 Semester: IV


Memberikan kemampuan untuk memahami dan menganalisa sistem manufaktur yang meliputi proses manufaktur, pemindahan material, penyimpanan material, inspeksi, dan packaging serta aktivitas non-fisik yang menunjang operasional manufaktur. The course aims to build students skills to understand and analyze manufacturing system in which includes manufacturing process, material transfer, material storage (warehousing), inspection, packaging and non-physical activities to support manufacturing operations. •


• •


dan

• • •


• • • • •

POKOK BAHASAN/SUBJECTS • • • • •



Pengantar sistem manufaktur Perencanaan sistem manufaktur, desain dalam sistem manufaktur Material handling, Inspeksi dan pengepakan, Automated Data Capture (ADC), dan sistem perakitan Sel manufaktur stasiun tunggal, Grup teknologi atau cellular manufacturing, sistem manufaktur fleksible Perencanaan dan pengendalian sistem manufaktur, fungsi bisnis lainnya dalam sistem manufaktur, manufacturing assesment, dan konsep-konsep khusus yang meliputi: JIT, Lean Production, Agile, Reconfigurable Manufacturing System, dan Intelligent manufacturing system. Introduction to Manufacturing System Manufacturing system planning, and design in the manufacturing system. Material handling, inspection and packaging, Automated Data Capture (ADC), and assembly system. Single station manufacturing cells, Group Technology and/or cellular manufacturing, Flexible Manufacturing System (FMS) Manufacturing system planning and control, other business function in manufacturing system, manufacturing assessment, Special concepts: Just In Time, Lean Production, Agile, Reconfigurable Manufacturing System, and Intelligent Manufacturing System.

1. Groover, M.P 2001, Automation, Production Systems, and Computer Integrated Manufacturing, Prentice Hall 2. Boothroyd, G 1992, Assembly Automation and Product Design, Marcel Dekker Inc., New York 3. Lotter, B 1989, Manufacturing Assembly Handbook, Butterworths

TI091310 : Penelitian Operational II TI091310:Operations Research II Credits: 4 Semester: V


Memahami dan mampu membuat model dari sistem yang bersifat probabilistik/stokastik dan teknik-teknik penyelesainnya baik secara algoritmik (manual) maupun dengan bantuan software komputer. To deliver an understanding and ability to build models of probabilistic/stochastic system and to use appropriate solving techniques both manually and computationally. • •


•

Keterampilan memecahkan masalah Keterampilan memanfaatkan informasi Perancang sistem

• • •

Problem solving skills Proficiency in ICT System designer

• • • • •

Program Integer Goal Programming Proses dan rantai markov Teori dan model antrian Pengantar simulasi (Monte carlo) dan Teori permainan

• • • • •

Integer Programming Goal Programming Markov chain and the process Queuing theory and queuing model Introduction to simulation (Monte Carlo) and Game theory



teknologi

• Winston, Wayne, L. Operations Research; Applications and Algorithms 4th Ed, Thomson Learning, Inc., 2004 • Taha, Hamdy A, Operations Research: An Introduction 7th Ed, Prentice Hall Education, 2003. • Hillier, F. S. and G. J. Lieberman, Introduction to Operations Research, McGraw-Hill, 2002. • Ravindran, dan Philips, Don T., Operation Research; Principles and Practice, John Wiley, 2000.


TUJUAN PEMBELAJAR AN/

TI091311 : Ekonomi Teknik TI091311 :Engineering Economics Credits: 3 Semester: V Mampu melakukan evaluasi kelayakan dari beberapa proposal teknik dalam kaitannya dengan dimensi nilai (worth) dan biaya (cost), serta mampu membuat suatu keputusan ekonomik dan memahami resiko/dampak ekonomik dari suatu permasalahan aplikasi teknik (engineering application) di suatu industri.

LEARNING OBJECTIVES

To evaluate the feasibility of several engineering proposals in relation to their dimension of worth and cost, and have capability to make economic decisions and understand the economic impacts of an implementation of any engineering applications in an industry.

KOMPETENSI/

• • •

Ketrampilan Sintesis, integrasi, dan perancangan Ketrampilan Manajerial Ketrampilan memecahkan masalah

COMPETENCI ES

• • •


• • •

Konsep ekonomi dan biaya. Ekivalensi Ekonomi. Metode-metode untuk melakukan perbandingan alternatif: Nilai Sekarang, Nilai Mendatang, Nilai Seragam, Rate of Return, Analisis Manfaat dan Biaya Analisis Penggantian. Analisis Ekonomik yang terkait dengan faktor depresiasi, pajak, resiko, serta kondisi ketidakpastian.

POKOK BAHASAN/ SUBJECTS

• • • • • • •

PUSTAKA UTAMA/REFER

Concept of economics and cost. Economic equivalent. Methods to compare investment alternatives: Present Value, Future Value, Annual Value, Rate of Return, and Benefit Cost Analysis. Replacement analysis Any economic analysis, which is related to depreciation, tax, risk, and uncertainty. th

Thuesen,G.J.; Fabrycky,W.J. (2002), Engineering Economy, 9 Edition, Prentice Hall Inc.,New Jersey.

ENCES



TI091312 : Perencanaan dan Pengendalian Produksi TI091312 :Production Planning and Control Credits: 4 Semester: V Perencanaan dan pengendalian produksi terkait dengan keseluruhan proses perencanaan dan pengendalian produksi untuk memenuhi kebutuhan pelanggan dengan sumber daya yang tersedia. Aktivitas yang tercakup di dalamnya meliputi peramalan permintaan, pembuatan rencana produksi, perencanaan kebutuhan material dan kapasitas, penjadwalan sumber daya produksi, dan pengendalian aktivitas di lantai produksi. Tujuan mata kuliah ini adalah untuk memperkenalkan ke mahasiswa berbagai konsep, teknik, metode, maupun isu-isu praktis untuk melakukan perencanaan dan pengendalian produksi. This course is mainly about the whole process of production planning and control to meet the demand using available resources. It includes demand forecasting, production planning, material requirements planning and capacities, and production control activities. The aim is to provide students with various concepts, techniques, methods, and practical issues related to the production planning and control.

KOMPETENSI/ COMPETENCY


• • •

Keterampilan sintesis, integrasi, dan perancangan Keterampilan manajerial Keterampilan memecahkan masalah

• • •

Synthesizing, integrating, and designing skills Problem solving skills Managerial skills

• •

Pengantar tentang sistem produksi dan konteks PPC. Peramalan permintaan, perencanaan produksi aggregate, pengelolaan persediaan, jadwal induk produksi Perencanaan kebutuhan bahan, perencanaan kapasitas, pengendalian aktivitas produksi Beberapa teknik lain (JIT, TOC) Sistem informasi: Pengenalan ERP, Pengenalan CPFR dalam konteks SCM

• • •

• • • • •

• PUSTAKA UTAMA/REFER ENCES

• •


Introduction to production system and PPC context Demand forecasting, aggregate planning, inventory planning, master production schedule Material requirements planning, capacity planning, production activity control Other techniques: Just in Time, TOC The use of information system: Introduction to ERP and CPFR in supply chain context Fogarty, D. W., Blackstone, J. H., and Hoffmann, T. R. (1991). Production and Inventory Management 2nd Ed., South Western Publishing. Vollmann, T., Berry, W., Whybark, C., and Jacobs, R. (2005). Manufacturing Planning and Control Systems for Supply Chain Management Fifth Ed., McGraw-Hill. Nahmias, S. (2000). Production and Operations Analysis, 4th Ed., McGraw-Hill/Irwin

TI091313 : Perancangan Fasilitas TI091313 :Facilities Planning Credits: 3 Semester: V

TUJUAN PEMBELAJARAN/

LEARNING OBJECTIVES


Memahami konsep dasar, proses dan teknikteknik perencanaan fasilitas serta mampu merancang dan mengevaluasi tata letak fasilitas suatu sistem manufaktur / jasa yang terdiri dari mesin, tempat kerja, work-in-process inventory, gudang, serta sistem pemindahan materialnya. The course provides students with understanding of facilities planning basic concepts, process, and techniques in purpose to design and evaluate facilities layout of manufacturing/services system in which includes machines, work stations, work in process inventory, warehouse, and material handling system. • • •

Perancang sistem Ketrampilan memecahkan masalah Keterampilan sintesis, integrasi, perancangan

•

System designer

dan

• •

Problem solving skills Synthesizing, integrating, and designing skills

•

Pengantar perencanaan fasilitas dan analisa lokasi fasilitas. Analisis produk dan proses, aliran material dan kebutuhan ruang, sistem fasilitas, dan personal requirements. Pendekatan tradisional, model-model matematik, dan algoritma dasar untuk layout fasilitas. Computer aided layout design, material handling, gudang dan penyimpanan. Group Technologydan layout untuk kebutuhan khusus.

• • • • POKOK BAHASAN/SUBJECTS • • • • •


Introduction to facilities planning and analysis of facilities location. Analysis of products and processes, material handling and space requirements, facilities system, and personal requirements. Conventional approaches, mathematical models, and basic algorithm for layout planning. Computer aided layout design, material handling, storage and warehousing. Group Technology and layout for special purpose.

1. Heragu, Sunderesh (1997). Facilities Design, PWS Publishing Company 2. Tompkins, James A; White, John A; Bozer, Yavuz A (2003). Facilities Planning, 3rd edition, John Wiley & Sons 3. Richard L Francis, Leon F McGinnis, and John A White (1992). Facility Layout and nd Location, An Analytical Approach, 2 edition, Prentice Hall 4. Meyers, Fred E and Stephens, Matthew P (2005). Manufacturing Facilities Design and Material Handling, 3rd edition 5. Apple, James A (1977). Plant Layout and Material Handling Systems Design, John Wiley & Sons 6. Wignjosoebroto, Sritomo (2003). Tata Letak Pabrik dan Pemindahan Bahan, Guna Widya, Surabaya


TI091314 : Perancangan dan Pengembangan Produk TI091314 :Products Design and Development Credits: 3 Semester: V


Perancangan dan pengembangan produk merupakan bagian dari strategi bisnis-industri yang didalamnya mencakup langkah-langkah perencanaan produk mulai dari pengembangan ide/ gagasan tentang fungsi produk (berdasarkan persepsi kebutuhan pasar ataupun inovasi teknologi), perancangan produk (engineering & industrial design), pembuatan prototipe, test & evaluasi dan berlanjut dengan aktivitas produksi serta penjualan (distribusi) produk. Tujuan mata kuliah ini adalah untuk membekali mahasiswa dengan kemampuan merancang suatu produk sebagai bagian dari strategi bisnis-industri secara keseluruhan. Product design and development is a part of business strategy in which includes product planning: from idea generation of product function either based on market requirements or innovation, product design (engineering and industrial design), prototyping, testing and evaluation, continued by production and marketing or distribution. The course aims to build students skills in designing products as a part of industrial strategy as a whole. • •


•

Perancang sistem Keterampilan sintesis, perancangan Ketrampilan manajerial

• • •

System designer Problem solving skills Synthesizing, integrating, and designing skills

• •

Definisi & Pengertian Produk Pengertian produk industri dan perancangan produk baru

•

Fase 0 : Perencanaan produk [Latar

integrasi,

dan

POKOK BAHASAN/ •

• SUBJECTS

• • • • • •

• • • • • • PUSTAKA UTAMA/REFERENCES

•

•

Belakang/ business landscape dan tantangannya, Strategi Pengembangan] Fase 1 : Pengembangan konsep [analisa pasar/ identifikasi peluang, identifikasi Voice of Customer, Consumer Preference Measurement/ QFD, spesifikasi target dan konsep teknis, seleksi konsep, dan analisa financial] Fase 2 : Perancangan tingkatan sistem [Arsitektur desain, kansei engineering] Fase 3 : Perancangan detail [Design for Manufacturing, Design for Assembly, Design for Environmental, Design for X] Fase 4 : Pengujian dan perbaikan [prototyping] Fase 5 : Peluncuran produk Product definition, industrial products and new product design Phase 0: Product planning, includes background, business landscape and its challenges Phase 1: concept development (market analysis/ opportunity identification, Voice of Customer identification, consumer preference measurement/QFD, technical concept and target specification, concept selection, and financial analysis) Phase 2: System level design (architecture design, Kansei engineering) Phase 3: Detail design (design for manufacturing, design for assembly, design for environmental) Phase 4: Testing and evaluation (prototyping) Phase 5: Product launching Cross, Nigel. Engineering Design Methods: Strategies for Product Design. New York; John Wiley & Sons, 1996. Roozenburg, NFM and J. Eekels. Product Design: Fundamentals and Methods. Chicester: John Wiley & Sons, 1995. Urban, Glen L. and John R. Hauser. Design and Marketing of New Products. Englewood Cliffs, NJ : Prentice-Hall Inc., 1993. Wright, Ian. Design Methods in Engineering and Product Design.

• •


London: McGraw-Hill Co., 1998. Loch, C. and Kavadias, S. (2008) Handbook of New Product Development Management. Elsevier Annacchino, M. (2003) New Product Development From Initial Idea to Product Management. Elsevier. ISBN : 0750677325

TI091211 : Manajemen Organisasi dan SDM TI091211 :Organization &Human Resource Management Credits: 4 Semester: VI


LEARNING OBJECTIVES

Manajemen organisasi dan sumber daya manusia (MOSDM) merupakan mata kuliah yang mengupas segala sesuatu yang harus dilakukan jika muncul kebutuhan berdirinya suatu organisasi industri, bagaimana bentuk organisasi yang sesuai untuk kebutuhan dan kondisi lingkungan tertentu, sekaligus bagaimana cara mengelola organisasi industri tersebut agar mampu bertahan, dan terus berkembang menghadapi dinamika lingkungan eksternal yang terus-menerus berubah. Tujuan mata kuliah ini adalah mahasiswa mampu mengembangkan kemampuan merancang suatu organisasi yang sesuai dengan kebutuhan dan kondisi lingkungan, serta merancang suatu sistem manajemen sumber daya manusia (SDM) yang sesuai untuk organisasi tersebut. The course discusses in depth about things need to be done establishing an industrial organization, including what is the best suitable form of organization for specific need and certain environment condition, as well as how to manage industrial organization in order to survive, and keep growing in facing external environment dynamics that changes over time. It aims to build students skills of designing an appropriate organization for a specific need and to design the best suitable human resource management system for that organization.


• • • •

Perancang sistem Keterampilan manajerial Ketrampilan memecahkan masalah Keterampilan sintesis, integrasi, perancangan

• • • •

System designer Managerial skills Problem solving skills Synthesizing, integrating, and designing skills

•

Hubungan antara kebutuhan/strategi organisasi dengan bentuk organisasi dan strategi manajemen sumber daya manusia (MSDM). Pengantar manajemen organisasi, desain struktur organisasi, mengelola budaya organisasi, dan pengembangan organisasi. Manajemen sumber daya manusia strategis, analisa jabatan, perencanaan dan perekrutan SDM, seleksi SDM, dan pengembangan SDM. Penilaian kinerja, kompensasi, dan manajemen SDM berbasis kompetensi. Hubungan industri, manajemen perubahan, manajemen konflik, dan manajemen SDM global.

• •

• • POKOK BAHASAN/SUBJECTS • •

•

• • PUSTAKA UTAMA/REFERENCES

dan

Alignment between organization needs/strategy with organization form and human resource management strategy. Introduction to organization management, organization structure design, managing organization cultures, and organization growth. Strategic human resource management (HRM), job analysis, human resource planning and recruitment, human resource selection and developments. Performance appraisal, compensation (wages, incentives, benefits and services), and competence based HRM. Industrial relations, organization renewal, conflict management, and global HRM.

1. Dessler, Gary. Human Resource Management, 10th ed. Pearson Prentice

Hall: 2005 2. Jones, Gareth R. Organizational Theory, th design, and Change, 4 ed. Prentice Hall: 2004



TI091315 : Permodelan Sistem TI091315 :System Modeling Credits: 2 Semester: VI Memahami suatu pendekatan untuk memecahkan permasalahan nyata mulai dari tahap identifikasi dan pendefinisian masalah, pendekatan sistem untuk pemecahan masalah, proses pemodelan, pemilihan model, perancangan/pengembangan model, teknik solusi, sampai dengan analisis model. To understand approaching methods of real problem solving started from identification stage and problem definition, system approach method, modeling process, model selection, model design and development, solution techniques, to the model analysis. •

KOMPETENSI/ COMPETENCI ES

•

Perancang sistem Keterampilan sintesis, integrasi, dan perancangan Ketrampilan memecahkan masalah

• • •

System designer Synthesizing, integrating, and designing skills Problem solving skills

•

Sistem dan berpikir system, identifikasi dan pendefinisian masalah Pendekatan sistem untuk pemecahan masalah Proses pemodelan dengan pendekatan hard Operations Research,soft Operations Research (Soft System Methodology) dan analisis keputusan. Pemilihan model dan perancangan/pengembangan model untuk pemecahan masalah Teknik/pendekatan untuk mendapatkan solusi model dan analisis model

•

• • POKOK BAHASAN/SU BJECTS

• • • • •

System and system thinking, problem identification and definition System approach for problem solving Modeling process using hard operations research approach,

• • 1. PUSTAKA UTAMA/REFER ENCES

2. 3. 4.


soft operations research approach (Soft System Mehodology) and decision analysis. Model selection, and model design/development for problem solving Techniques to obtain model solution and model analysis. Deallenbach, H.G. and McNickle, D.C. (2005), Management Science: Decision making through system thinking, Palgrave Macmillan. Murthy, D.N.P., Page, M.W., and Rodin, E.Y. (1990),Mathematical Modelling, Pergamon Press. Boardman, J. and Sauser, B. (2008), SystemsThinking: Coping with 21th Centrury Problem, CRC Press. Murthy, D.N.P., Page, M.W., and Rodin, E.Y. (1990),Mathematical Modelling, Pergamon Press.

TI091316 : Teknik Pengendalian Kualitas TI091316 :Quality Control Techniques Credits: 3 Semester: VI




Memahami teknik-teknik yang dapat digunakan untuk mengendalikan mutu produk yang sangat penting untuk merancang sebuah sistem jaminan mutu. To deliver an understanding and knowledge of quality control techniques of which very important to design a quality assurance system. • • •

Perancang sistem Keterampilan manajerial Ketrampilan memecahkan masalah

• • •

System designer Managerial skills Problem solving skills

• •

Konsep dasar teknik pengendalian kualitas Teknik pengendalian, faktor penentu kualitas output produksi dan cara pengendaliannya, aplikasi 7 tools. Sampling, penggunaan standard dalam proses pengendalian kualitas

•

• •

• • • • •

5.


6.

7.


Aplikasi peta kontrol: attributes dan variables control charts Sistem jaminan kualitas: dokumentasi sistem mutu, sistem manajemen mutu standard, ISO 9000, Malcolm Baldridge, Six Sigma The basic concepts of quality control techniques Control techniques, production output quality influencing factors and control methods, 7 tools applications. Sampling, standard uses in quality control process. Control chart applications: attributes and variables control charts Quality assurance system: quality sistem documentation, standard quality management system, ISO 9000, Malcolm Baldridge, Six Sigma Montgomery, Douglas C. (2005), Introduction to Statistical Quality Control. New York: John Wiley & Sons Corp. Grant, E.L. and R.S. Leavenworth (2000). Statistical Quality Control. New York: McGraw-Hill Book, Co. Gitlow, Howards S. (1995), Total Quality Control. Tools and Methods for Improvement, Irwin Co. Publishing Company.

TI091317: Simulasi Sistem Industri TI091317:Industrial System Simulation Credits: 3 Semester: VI


Memahami konsep simulasi, permodelan, input & output simulasi, serta membandingkan alternatif system. Mengembangkan kemampuan mahasiswa untuk membuat model simulasi dengan perangkat lunak simulasi (ARENA) serta menganalisis & membandingkan alternatif model. To provide students with an understanding of concepts of simulation, modeling, input and

output analysis as well as concept of comparing system alternatives. It aims to develop students’ ability to build simulation models with ARENA software, to analyze the results, and to compare alternatives. • • KOMPETENSI/COMPETENCIES

•


• • •


•

Pengantar simulasi: dinamika sistem, simulasi sistem Dasar-dasar simulasi: tipe-tipe simulasi, perilaku acak, pembangkitan bilangan random. Simulasi diskrit: tahapan dan analisa input, model konseptual, model simulasi, verifikasi and validasi, analisa output. Membandingkan sistem

• •


• • • •

•


MATA KULIAH/

Introduction to simulation: system dynamics, simulation system Basic Simulation: types of simulation, random behavior, random number generation. Discrete simulation: stages and input analysis, conceptual model, simulation model, verification and validation, output analysis. Comparing systems

• Harrel, Ghosh, Bowden (2004), Simulation using Promodel, McGraw Hill. • Kelton, David W, Randall P Sadoswski, and David T Sturrock, Simulation with Arena, McGraw Hill. • Birta, Louis G, Arbez (2007), Modelling and Simulation, Springer – Verlag London. • Seldon, M Ross (2006), Simulation, Elsevier

TI091318 : Manajemen Logistik

COURSE TITLE


TI091318 :Logistics Management Credits: 3 Semester: VI Tujuan mata kuliah ini adalah untuk memberikan pengetahuan dan ketrampilan bagi mahasiswa untuk memahami konsepkonsep maupun model-model dalam manajemen logistik serta aplikasinya di dalam kasus nyata. Mahasiswa juga dibekali untuk trampil menggunakan aplikasi perangkat lunak bagi setiap materi perkuliahan yang membutuhkan. Dengan kombinasi antara kemampuan memahami problem-problem logistik, menterjemahkannya dalam model serta metoda penyelesaiannya, diharapkan mahasiswa mempunyai pengetahuan komprehensif tentang manajemen logistik. The course aims to provide students with understanding on basic concepts and logistics management models and their applications in real case. It also provides required software application for several topics. With the combination of skills of understanding logistics problems, modeling and solving the problems, students are expected to hold a comprehensive understanding about logistics management.


• • • •

Keterampilan memecahkan masalah Keterampilan sintesis, integrasi, dan perancangan Keterampilan manajerial Keterampilan memanfaatkan teknologi informasi

• • • •

Problem solving skills Synthesizing, integrating, and designing skills Managerial skills Proficiency in ICT

• •

• POKOK BAHASAN/SU BJECTS

• • • •

• • •

PUSTAKA UTAMA/REFER ENCES



Pengantar Manajemen Logistik, strategi Logistik, karakteristik produk, Customer Service dalam logistik Pengolahan pesanan dan Sistem Informasi Logistik, dasardasar perencanaan jaringan distribusi, keputusan-keputusan Lokasi Fasilitas dalam Jaringan Distribusi, dasar-dasar perencanaan transportasi logistik Sistem Pergudangan dan Pemindahan Produk dalam Gudang, outsourcing dalam Jasa Logistik / Third Party Logistics (3PL) Topik Kontemporer Dalam Logistik II : - Reverse Logistics Kuliah Tamu oleh Praktisi - Akademisi Logistik / Plant Visit (Industri di Surabaya dan Sekitarnya) Introduction to Logistics Management, logistics strategy, product characteristics, customer service in logistics. Order fulfillment and logistics information system, distribution network planning, decisions on facilities location in a distribution network, logistics transportation planning Warehousing system and replenishment, outsourcing in logistics services (third party logistics/3PL) Contemporary topic in Logistics II: Reverse Logistics Guest Lecture and plant visit

1. Ghiani, Gianpaolo. (2004). Introduction to Logistics Systems Planning and Control. California: John Wiley and Sons, Ltd. 2. Ballou, Ronald. H. (2004) Business Logistics Management, Prentice Hall International, Inc., USA 3. Chopra, Sunil (2004). Supply chain Management : Strategy,Planning, and Operation. Prentice Hall International, Inc., New Jersey 4. Fleischmand et.al. (2003) Quantitative Modelling in Reverse Logistics, Springer.

TI091319 : Perancangan Sistem Industri TI091319 :Industrial System Design Credits: 3 Semester: VI Mata kuliah ini bertujuan untuk memberikan mahasiswa kemampuan dalam merancang dan menganalisa rencana usaha secara terintegrasi menggunakan semua pengetahuan yang telah diajarkan dalam mata kuliah pada semester-semester sebelumnya. Dalam kuliah ini juga membahas secara mendalam mengenai bagaimana melakukan identifikasi peluang usaha,

perancangan produk dan proses, pemilihan lokasi pabrik, perancangan stasiun kerja, perancangan tata letak pabrik, dan perancangan PPC. The course aims to build students skills in designing and analyzing an integrated business plan using all related knowledge given in the previous semesters during the study. Also discussed in depth in this course are: how to identify business opportunity, process and product design, plant location selection, work station design, facilities design, and production planning and control.


POKOK BAHASAN/

• • •

Perancang sistem Keterampilan sintesis, integrasi, dan perancangan Keterampilan manajerial

• • •


• •

Pendahuluan: konsep analisis dan perancangan usaha Identifikasi peluang, perkiraan kebutuhan masa datang, sizing pabrik Perancangan produk/jasa, proses dan kebutuhan mesin Perancangan stasiun kerja, layout dan penentuan lokasi pabrik Perancangan sistem PPC

• • • • •

SUBJECTS

• • •

PUSTAKA UTAMA/ REFERENCES


TUJUAN PEMBELAJAR

Introduction: analysis concepts and business plan Opportunity identification, future demand forecasting, plant sizing Designing products/services, process and machines requirements Design of work station, layout and plant location selection Design of production planning and control system (PPC)

Behrens, W, P.M.Hawraner; Manual for the Preparation of Industrial Feasibility Studies; UNIDO-United Nation Publication, 1992.

TI09XXXX : Metodologi Penelitian TI09XXXX : Research Methodology Credits: 0 Semester: VI Mata kuliah ini bertujuan untuk membekali mahasiswa Teknik

AN/LEARNING OBJECTIVES

Industri dengan pengetahuan (knowledge), ketrampilan (skill), dan sikap ilmiah (attitude) berkaitan dengan komunikasi ilmiah secara lisan dan tertulis. Secara khusus, mata kuliah ini akan membekali mahasiswa Teknik Industri dengan metode - metode menggali dan menyarikan informasi, melakukan penyuntingan dan menulis referensi, melakukan komunikasi ilmiah baik secara lisan dan tertulis, ketrampilan melakukan riset, dan menulis laporan dan jurnal ilmiah. Dengan memahami hakekat riset dan penulisan ilmiah, seorang sarjana Teknik Industri diharapkan juga dapat menjadi knowledgeable consumer dari produk – produk karya ilmiah yang ada. This course is designed to provide students with knowledge, skills, and scientific attitude of which related to scientific communication both oral and written. In specific, this course provides students with methods of searching related information, quotation and referencing methods, communicating both orally and written, skills of conducting research, and how to write scientific report or journal. By understanding research methods and scientific reporting in depth, students are expected to be knowledgeable consumers of scientific products in the future.



• • •

Intrapersonal dan communication skills Ketrampilan memanfaatkan teknologi informasi Penguasaan bahasa Inggirs dan/atau bahasa asing lainnya

• • •

Intrapersonal and communication skills Proficiency in ICT Proficiency in English and or other language

• Basic learning skills & Learn how to learn, hakekat dan konsep – konsep penelitian • Manajemen penelitian, metode memunculkan ide penelitian, metode pemilihan topik penelitian, literature search, literature review • Critical thinking & critical review, academic writing skills, penulisan referensi & manajemen literatur, penyusunan desain riset • Penggunaan komputer dan software penunjang penelitian • Penulisan laporan ilmiah dan presentasi ilmiah • Basic learning skills and learn how to learn, the concepts of research • Research management, methods of generating research idea, methods of selecting research topics, literature search, and literature review. • Critical thinking and critical review, academic writing skills, referencing methods and literature management, research design building.

• The use of computer software to support the research • Scientific reporting and presentation.






1. Hussey, J. and Hussey, R. (1997) Business Research: A Practical Guide for Undergraduate and Postgraduate Students, Macmillan Business, London. 2. Cooper, D. R. and Schindler, P. S. (2003), Business Research Methods, McGraw Hill, Singapore. 3. Sekaran, U. (2003) Research Methods for Business: A Skill Building Approach, John Wiley & Sons, USA.

TI091320 : Pemeliharaan dan Teknik Keandalan TI091320 :Maintenance and Reliability Techniques Credits: 3 Semester: VII

TI091321 : Perancangan Sistem Informasi Bisnis TI091321 :Information System Design for Business Credits: 3 Semester: VII

TI091322 : Analisis dan Perancangan Usaha TI091322 :Business Design and Analysis Credits: 3 Semester: VII Analisis dan perancangan usaha adalah mata kuliah lanjutan dari Perencanaan Sistem Industri yang mengintegrasikan mata kuliah lain yang telah diajarkan sebelumnya. Dalam mata kuliah ini, secara kelompok dan dengan supervisi dosen, mahasiswa melanjutkan perancangan yang telah dilakukan dalam Perencanaan Sistem Industri dengan melakukan perancangan supply chain, perancangan pengendalian kualitas dan biaya, perancangan organisasi, analisis keuangan, dan analisis risiko.

This course is an extension of Industrial System Design that integrates most of courses given in the first, second, and third year. In this course, students continue design activities in Industrial System Design class with additional planning include supply chain design, quality and cost design and control, organization design, financial analysis, and risk analysis.



• • •

Perancang sistem Keterampilan sintesis, integrasi, dan perancangan Keterampilan manajerial

• • •


•

Perancangan sistem: identifikasi peluang usaha, rancangan produk, rancangan proses, rancangan sistem produksi dan pengoperasiannya, rancangan strategi Analisa kelayakan: aspek keuangan, sosial/lingkungan, dan resiko

• •

• PUSTAKA UTAMA/ REFERENCES



LEARNING

Designing system: business opportunity identification, product design, process design, production system and operations design, design of strategy. Feasibility study in financial, social/environmental, and risk aspects.

Behrens, W, P.M.Hawraner; Manual for the Preparation of Industrial Feasibility Studies; UNIDO-United Nation Publication, 1992.

TI091323 : Kerja Praktek TI091323 :Internship Credits: 2 Semester: VIII Kerja praktek adalah mata kuliah kerja lapangan yang dilaksanakan di suatu industri dimana mahasiswa bekerja bersama-sama dengan karyawan lain, supervisor, dan manager, mempraktekkan atau menirukan atau mengikuti kegiatan-kegiatan yang lazimnya dilakukan oleh seorang sarjana teknik industri. Tujuan dari mata kuliah ini adalah agar mahasiswa dapat memahami proses bisnis industri secara utuh, perkerjaan yang terkait dengan bidang teknik industri, serta memberikan pengalaman akan dunia kerja yang akan sangat berguna sebagai

OBJECTIVES

bekal bagi seorang sarjana teknik industri. Internship is a field course in which students work together with employees, supervisors, and managers of a certain industry; practicing, following, and experiencing regular activities of an industrial engineer in an industry. The course aims to give students an overview of a thorough industrial business, the works related to the field of industrial engineering, as well as to give a real work experience that is very useful for an industrial engineer graduate. • • •

Kemampuan managerial Kemampuan memecahkan masalah Intrapersonal dan kemampuan berkomunikasi

• • •

Managerial skills Problem solving skills Intrapersonal and communication skills

POKOK BAHASAN/

• • • •

Kerja industri Deskripsi industri dan produknya Proses manajemen dan proses produksi Laporan kerja praktek dan presentasi

SUBJECTS

• • • •

Industrial work Industrial description and the products Management and production process Internship report and presentation


N/A



TI091324 : Tugas Akhir TI091324 :Final Project Credits: 5 Semester: VIII

MATA KULIAH PILIHAN MATA KULIAH/ COURSE TITLE

TI091416: Metoda Metaheuristik TI091416: Metaheuristics Credits: 3 Semester: [VIII]


LEARNING OBJECTIVES

KOMPETENSI/

COMPETENCY

POKOK BAHASAN/

SUBJECTS

Memberikan pemahaman mengenai pendekatan metaheuristik dalam optimasi dan kegunaannya serta kapan digunakan agar mahasiswa mampu memahami dan mengimplementasikan teknik-teknik metaheuristik dan aplikasinya. Todeliver an understanding about metaheuristics approach in optimization, including what and when to use them. It aims to build student’s ability to implement metaheuristics techniques and their application. • • •


• • •

Problem solving skills ICT skills Analytical skills

• •

Pengantar optimasi Optimasi klasik: convex, nonconvex functions, Newton, Steepest Descent, Modified Newton Metaheuristik: Genetic Algorithm, Simulated Annealing, Tabu Search, Ant Colony optimization, Particle swarm optimization, Cross entropy.

•

• • •

PUSTAKA UTAMA/

• •

Introduction to optimization Classical heuristics: convex, nonconvex functions, Newton, Steepest Descent, Modified Newton Metaheuristics: Genetic Algorithm, Simulated Annealing, Tabu Search, Ant Colony optimization, Particle Swarm, Cross Entropy. J. Dr´eo A. P´etrowski,P. Siarry E. Taillard,Metaheuristics for Hard Optimization, , Springer MetaheuristicsProgress in Complex Systems Optimization, Springer

•

REFERENCES

•


TI091418: Pengambilan Keputusan Kriteria Majemuk TI091418: Multi Criteria Decision Making (MCDM) Credits: 3 Semester: [VIII]


LEARNING OBJECTIVES

KOMPETENSI/

COMPETENCY

POKOK BAHASAN/

Fred Glover,Gary A. Kochenberger,HANDBOOK OF METAHEURISTICS,Kluwer Santosa B, Matlab untuk statistika dan teknik optimasi (Matlab for statistics and Optimization Techniques, Kota, Graha Ilmu, tahun.

Memberikan pemahaman teori dasar mengenai struktur dan kerangka proses pengambilan keputusan Multikriteria Decision Making (MCDM), serta menjelaskan fenomena konfliktual keputusan pada paradigma "bounded rationality" serta penerapannya dalam problematik pengambilan keputusan pada industri dan sistem riil. The course provides basic theory about multi decision-making framework. It reviews decision phenomenon in a bounded rationality scheme implementation on problematic decision making in and real system.

criteria conflict and its industry

• • • •

Keterampilan memecahkan masalah Keterampilan memanfaatkan teknologi informasi Ketrampilan analisis Ketrampilan manajerial

• • • •

Problem solving skills Proficiency in ICT Analytical skills Managerial Skills

•

Review konsep optimasi dan prinsip dasar MCDM, preferensi dan pengukurannya, serta teknik pembobotan dan pengukuran kriteria. Penyelesaian Multiobjektif (MOP)dengan pendekatanagregasi tunggal : metoda global, fungsi utilitas, metode

•

deviasi minimum, metode STEP, Goal Programming.

•

•

• • SUBJECTS •

•

•

• • •


• • • • •

Penyelesaian multikriteria (MCDM) dengan pendekatan agregasi total dan diskrit : AHP, Struktur dan hirarkhi problem kompleks, pengukuran preferensi dan penetapan bobot, indeks inkonsistensi, analisis sensitivitas. Pendekatan MCDM berbasis agregasi parsial: metode ELECTRE I dan II, konsep outranking dan pemilihan metode, penilaian concordance dan discordance, penyelesaian forward dan inverse. Pendekatan PROMETEE I. Optimization review and MCDM basic theory, its preferences and measurement, as well as weighting techniques and criteria measurement. Multi objective solving method with single aggregation approach: global method, utility function, minimum deviation method, STEP method, and Goal Programming. Multi criteria solving method with total and discrete aggregation: AHP, complex problem structure and hierarchy, preferences measurement and weight selection, inconsistency index, and sensitivity analysis. Partial aggregation based method: ELECTRE I and II, outranking concept and methods selection, concordance and discordance assessment, forward and inverse solving method. PROMETEE I techniques

Bana et Costa C.A;Readings in Multiple Criteria Decision Aid, Berlin: Springer Verlag, 1994. Lawrence, Kenneth.D, Gary R.Reeves and Ronald K.Limberg;“Multi Criteria Apllications”, Application of ManagementScience,Vol.10 (2000), Elsevier Science. Maystre L.Y., J.Pictet dan J. Simos,“Methode Multicritere ELECTRE”, Presses Polytechniques et Universitqires Romandes(1995), Lausanne. Tabucanon, M.T; Multipile Criteria Decision Making in Industry, Elsevier, 1995. Saaty,T.L.;“Fundamental of Decision Making in Priority Theory”,RWS Publications, 1994. Sen, Pratyush and Jian-Bo Yang,Multiple Criteria Decision Support in Engineering Design, Berlin: Springer Verlag, 1998. Romero, C.;Handbook of Critical Issues in Goal Programming, London: Pergamon Press, 1992.

•


Vincke, P., M.Gassner dan B.Roy, Multicriteria Decision Aid, Jon Willey and Sons , 1994.

TI091408:Faal dan Biomekanika Kerja TI091408: Occupational Physiology and Biomechanics Credits: 3 Semester: VII/VIII

TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES


POKOK BAHASAN/

Kuliah ini memberikan pemahaman kepada mahasiswa mengenai kelebihan dan kekurangan aspek faal dan biomekanika manusia saat bekerja, bagaimana mengukurnya, dan memanfaatkannya dalam mendesain sistem kerja yang ergonomis. This course provides students with knowledge about human limitations and strengths in physiological and biomechanical aspects; how to measure them and to use the knowledge to design ergonomic work systems. • • •

Perancang Sistem Ketrampilan Sintesis, integrasi, dan perancangan Ketrampilan Manajerial

• • •


• •

Pengantar fisiologi dan biomekanika kerja. Pengukuran kapasitas dan beban kerja secara fisiologis. Nutrisi dan kebutuhan energy kerja. Sistem kerangka otot manusia. Manual material handling.

• • • •

SUBJECTS

• • • • •

PUSTAKA •

Introduction to occupational physiology biomechanics. Physiological work capacity and demand. Nutrition and energy needs. Musculoskeletal systems. Manual material handling.

and

Astrand, Textbook of Work Physiology, Mc.Graw Hill, 2003 Nurmianto, Ergonomi : Konsep Dasar dan

UTAMA/REFERENCES



LEARNING OBJECTIVES

KOMPETENSI/

COMPETENCY

POKOK BAHASAN/

Aplikasinya(Ergonomics : Basic Principles Applications), Jakarta : Guna Widya, 1996.

and

TI091425: Manajemen Rantai Pasok TI091425: Supply Chain Management Credits: 3 Semester: VII/VIII Mata kuliah ini terkait dengan pengelolaan aliran barang dan informasi lintas organisasi dengan pendekatan integratif dan kolaboratif. Manajemen rantai pasok yang efektif menciptakan keunggulan dari sisi kecepatan respons maupun efisiensi. Tujuan mata kuliah ini adalah untuk memperkenalkan ke mahasiswa berbagai konsep, teknik, metode, maupun isu-isu praktis terkait dengan pengelolaan rantai pasok. The course is about managing material and information flows among organizations in a supply chain using integrative and collaborative approaches. An effective supply chain builds competitiveness in term of the responsiveness and efficiency. The course aims to give students understanding about various concepts, techniques, methods, as well as practical issues related to the supply chain management. • • • •

Keterampilan sintesis, integrasi, dan perancangan Keterampilan manajerial Keterampilan memecahkan masalah Keterampilan memanfaatkan teknologi informasi

• • • •

Synthesizing, integrating, and designing skills Managerial skills Problem solving skills Proficiency in ICT

• •

Pengantar manajemen rantai pasok Strategi rantai pasok, koordinasi produk dan desain rantai pasok, konfigurasi jaringan dan efek pooling permintaan. Manajemen permintaan, manajemen persediaan terkoordinasi, kontrak dalam rantai pasok, manajemen pengadaan dan hubungan dengan pemasok Beer Game dan permasalahan koordinasi, bulwhip effect

•

•

SUBJECTS

•

Mengukur kinerja rantai pasok, penggunaan teknologi informasi dalam manajemen rantai pasok dan isu-isu global.

• •

Introduction to supply chain management. Supply chain strategy, coordinated product and supply chain design, network configuration and demand pooling effect. Demand Management, coordinated inventory management, Contract in supply chain, procurement management and supplier relationships. The beer game and coordination issues, Bullwhip effect Measuring supply chain performance, IT in supply chain management, global SC issues.

•

• •

• PUSTAKA UTAMA/

•

REFERENCES •


TUJUAN PEMBELAJAR AN/ LEARNING OBJECTIVES

Chopra, S., and Meindl, P. (2007). Supply chain management: Strategy, planning, and operations, 3rd Edition. New Jersey - Prentice-Hall. Simchi-Levi, D., Kaminski, P., and Simchi-Levi, E. (2000). Designing and managing the supply chain: Concept, strategies, and case studies. Irwin McGraw-Hill. Pujawan, I N. (2005). Supply Chain Management. Guna Widya.

TI091428 : Sustainable Manufacturing TI091428 : Sustainable Manufacturing Credits: 3 Semester: VII/VIII Mata kuliah ini merupakan mata kuliah pilihan yang didesain untuk memberikan pemahaman terhadap konsep keberlanjutan (sustainability), efeknya terhadap industri, dan berbagai teknik yang dapat digunakan untuk mencapai sustainable manufacturing. Dengan demikian diharapkan mahasiswa Teknik Industri nantinya akan menjadi sarjana plus yang memiliki kepekaan terhadap lingkungan dan mampu meningkatkan total kinerja industri. This course is designed to provide students with an understanding of sustainability issues, the concepts and the scope of SM, the strategies in SM, the management approaches in SM, and tools commonly used in SM. In the current situation, integrating sustainability into business process will enhance business’s total performance and competitiveness. Skills developed and knowledge acquired from this course will prepare students to be environmentally conscious engineers who are

sensitive to environmentally related problems and capable to solve those problems and enhance total performance of industries. • KOMPETENSI/

• •

COMPETENCY

• • • • • • •

POKOK BAHASAN/

•

SUBJECTS

• • • • •


Kemampuan mengakomodasikan keberlanjutan Perancang sistem Keterampilan manajerial Ability to accommodate sustainabilities System designer Managerial skills

isu

lingkungan

environmental

issues

dan

&

Sejarah sustainable development, konsep, ruang lingkup, dan dampaknya pada aspek kehidupan Sustainable manufacturing, isu-isu sustainability makro, regulasi mengenai lingkungan dan implikasinya pada proses bisnis Upgrading, penggunaan ulang, manufaktur ulang, dan daur ulang Life Cycle Management (LCM), Life Cycle Engineering (LCE), Life Cycle Assessment (LCA), and Life Cycle Costing (LCC) Manajemen data produk, Technical Support, dan Topik Khusus The history of sustainable development, concepts, scope, and the impacts in aspects of life Sustainable manufacturing, macro sustainability issues, environmental regulations and the implications in business process Upgrading, reuse, remanufacturing, and recycling Life Cycle Management (LCM), Life Cycle Engineering (LCE), Life Cycle Assessment (LCA), and Life Cycle Costing (LCC) Product Data Management (PDM), Technical Support (TS), and special issues.

1. Billatos, S.B. and Basaly, N.A. (1997) Green Technology and Design for the Environment, Taylor & Francis 2. Curran, M.A. (1996) Environmental Life-Cycle Assessment, McGraw-Hill 3. Fiksel, J. (1997) Design for Environment – Creating Eco – Efficient Products andProcesses, McGraw Hill 4. Hines, P. and Taylor, D. (2000) Going Lean, Lean Enterprise Research Centre, UK. 5. Steinhilper, R. (1998) Remanufacturing: The Ultimate Form

of Recycling, Fraunhofer IRB Verlag, Stuttgart 6. Proceeding of CIRP International Seminar on Life Cycle Engineering, 1994 – 2008


TI091419 : Pengukuran Kinerja TI091419 :Performance Measurement Credits: 3 Semester: VII/VIII


Matakuliah pengukuran kinerja bertujuan untuk memberikan pemahaman mengenai konsep pengukuran kinerja perusahaan tradisional dan modern, contoh-contoh model pengukuran kinerja perusahaan yang tradisional maupun modern, konsep pengintegrasian sistem pengukuran kinerja karyawan dengan sistem pengukuran kinerja perusahaan. The course aims to provide students with understanding of conventional and modern performance measurement concept, examples of performance measurement models in companies, and the concept of employee performance measurement and corporate performance measurement integration. •


• •


• • •


•

Konsep dasar pengukuran kinerja perusahaan Sistem pengukuran kinerja perusahaan tradisional dan modern dan model-modelnya. Konsolidasi Key Performance Indicator Penerapan sistem pengukuran kinerja perusahaan Target setting


• • • • •

Basic concept of corporate performance measurement Corporate Performance Measurement

dan

System: conventional and modern, corporate performance measurement system models. Key Performance Indicator consolidation. Corporate performance measurement system implementation. Target Setting.

• • •

1. Kaplan and Norton. Balanced Scorecard 2. Kaplan and Norton. Strategy Focus Organisastion 3. Neely, A., Adam., C., and Kennerly, M. The Performance Prism (London: Prentice Hall, 2002) 4. Spitzer, D.R., Transforming Performance Measurement (New York: Amacom, 2007)



TI091409: Keselamatan dan Kesehatan Kerja TI091409: Health & Safety Management Credits: 3 Semester: VII/VIII


Mahasiswa mampu mengidentifikasi berbagai jenis resiko kerja berdasarkan aspek keselamatan, kesehatan dan keamanan dengan mengacu pada regulasi Nasional dan Internasional. This course provides students with understanding of how to identify various health and safety risk in working environment as well as related international and national regulation. • •


• • • •


• • •

Perancang sistem Ketrampilan mengakomodasikan isu lingkungan dan keberlanjutan Ketrampilan managerial System designer Ability to accommodate environmental issues & sustainabilities Managerial skills Pengantar K3 dan Sistem Manajemen K3. Loss Exposure & Loss Control (The Domino Effects). Identifikasi Resiko dan Pengukuran Tingkat Resiko

•

Prediksi Bahaya dan Rencana Penanggulangan Kecelakaan Pengendalian Lingkungan Kerja.

• • • • • •

Introduction to Health and Safety Environment (HSE) and HSE system management. Loss Exposure & Loss Control (The Domino Effects) Risk identification and risk level measurements Hazard prediction and accident prevention planning Working environment controls

• •


•


TI091410: Aplikasi Ergonomi Industri TI091410: Applied Industrial Ergonomics Credits: 3 Semester: VII/VIII


LEARNING OBJECTIVES


Asfahl, C.Ray. (1999). Industrial Safety and Health Management, fourth edition. Prentice Hall, New Jersey. Hammer, Willie & Price, Dennis. (2001).Occupational Safety Management and Engineering, fifth edition. Prentice Hall, New Jersey. Nedved, Milos. (1991). Fundamentals of Chemical Safety and Major Hazard Control. International Labor Organization.

Tujuan perkuliahan ini adalah memahami aspek - aspek mengenai kemampuan, kelebihan serta keterbatasan manusia ketika berinteraksi dalam sistem kerjanya. Mampu menerapkan prinsip-prinsip ergonomi dalam aplikasi di industri. The course aims to provide students with understanding of human aspects, especially capabilities and strengths, as well as limitation when interacting with working system. Students are expected to be able to implement ergonomics principal in industry. • • •

Ketrampilan sintesis, inegrasi, dan perancangan Ketrampilan memecahkan masalah Perancang system

• •

Synthesizing, integrating, and designing skills Problem solving skills


TUJUAN PEMBELAJAR AN/ Learning Objectives

KOMPETENSI/

System designer

• • • • •

Human Centered/Integrated Design Ergonomics Principles in Industrial Application Manipulative model (kinesiology) Human computer interaction / usability analysis. Cognitive model (thought)

1. Konz, Stephan. Work Design: Industrial Ergonomics.Scottsdale, Arizona: Publishing Horizons, Inc., 1995. 2. Lehto, M. R and Buck, J.R. Intoduction to Human Factors and Ergonomics for Engineers. New York, 2008. 3. Stanton, N., Hedge, A., Brookhuis, K., Salas, E., and Hendrick, H. Handbook of Human Factors and Ergonomics Methods.CRC Press, 2005. 4. Tayyari, Fariborz and Smith, James L. Occupational Ergonomics:Principles and Applications.London : Chapman & Hall, 1997.



•

TI091415 : Sistem Dinamik TI091415 : Dinamic System Credits: 3 Semester: VII/VIII

Memberikan perspektif pendekatan metodologi Sistem Dinamik dalam memecahkan permasalahan sistem yang kompeks, membangun kemampuan memodelkan permasalahanpermasalahan kompleks, mensimulasikan model, memvalidasi model, menganalisa dan membuat skenario kebijakan yang sesuai dengan tujuan system. Mata kuliah ini juga memberikan kemampuan untuk melihat sebuah permasalahan secara menyeluruh sehingga dapat melahirkan kebijakan-kebijakan dalam melakukan penyikapan atas permasalahan kompleks tersebut. To give an overview of Dynamic System approach methods in solving system complex problems, to develop students’ ability to model complex problems, simulate the models, validate the models, to analyze and to develop improvement scenarios related to the system purpose. It also provides students with practices on how to view a problem comprehensively in taking actions regarding the complex problem. •

Keterampilan memecahkan masalah

Competencies

• •

Perancang Sistem Ketrampilan Sintesis, integrasi, dan perancangan

• • •

Problem solving skills System designer Synthesizing, integrating, and designing skills

•

Konsep dasar metodologi Sistem Dinamik: pengenalan dalam berpikir sistem dan proses permodelannya, struktur dan perilaku sistem dinamik. Batasan sistem, diagram sebab akibat: struktur dan perilaku dalam sistem umpan balik positif-negatif tunggal, struktur dan perilaku dalam umpan balik positif-negatif jamak. Menganalisa masalah-masalah sederhana, pengenalan simulasi: konsep aliran materi dan informasi, persamaan level, persamaan rate, auxiliary, konstanta/parameter dan multiplier. Pengenalan konsep delay material dan informasi dalam sistem, konsep pulse dan step, konsep fungsi, konsep smoothing. Pendekatan sistem dinamik dalam analisa perancangan dan kebijakan Validasi model sistem dinamik, skenario kebijakan, dan analisa sensitivitas.

• • • • Pokok Bahasan/ Subject

• • • • • • •

Referensi/ References

Basic concepts of Dinamic System methodology: introduction in system thinking and modeling process, structure and dinamic system behaviour. System boundary, causal loop diagram: structure and behaviour in single multiple positive and negative feedback loop. Simple problems analysis, simulation introductory: material and information flow concepts, level equation, rate equation, auxiliary, constants/parameters and multiplier. Introduction to the concept of material and information delay in a system, pulse and step concepts, function concepts, smooting concepts. Dinamic system approach in analyzing design and policies. Validation of dynamic system models, policies scenario, and sensitivity analysis.

• John D. Sterman : Business Dinamics : Systems Thinking and Modeling for Complex World. • Leslie A. Martin : Beginner Modeling Exercises, MIT System Dynamics in Education Project Under the Supervision of Dr. Jay W. Forrester. September 5, 1997 • Joseph G. Whelan : Modeling Exercises I, MIT System Dynamics Education Project Under the Supervision of Dr. Jay W. Forrester, May, 1994 • Joseph G. Whelan revised by Lucia Breierova, Modeling

Exercises II, MIT System Dynamics Education Project Under the Supervision of Dr. Jay W. Forrester January 13, 1997 • Jay W. Forrester, System Dynamics, Systems Thinking, and Soft OR, Sloan School of MIT, August 18, 1992.

• Bell, J.A., and Senge, P.M. Enhancing refutability. In: Legasto, A.A. Jr.; Forrester, M.W.; and Lyneis, T.M., eds. System Dynamics . Elsevier North-Holland, 1980



TI091402 : Manajemen Material dan Pengadaan TI091402 : Procurement and Material Management Credits: 3 Semester: VII/VIII Procurement & material Management mencakup materi yang terkait dengan pengadaan material dan manajemen material dari supplier sampai dengan di dalam proses produksi. Aktifitas meliputi perencanaan pengadaan material dan teknik-teknik perencanaan pengadaan. Metode-metode pemilihan dan evaluasi supplier. Tujuan mata kuliah ini adalah untuk memperdalam konsep pengadaan dan manajemen material dan model-model yang terkait dengan masalah tersebut. Dan membahas studi kasus dari journal-journal yang relevan. The course includes the topics related to the material procurement and management, from suppliers to the production process. It also includes material procurement planning and the techniques of procurement planning. It aims to discuss in depth about procurement concept and material management as well as related models in this topic. Case studies and relevant journals will be discussed in this course for enrichment. • • •

Keterampilan sintesis, integrasi, dan perancangan Keterampilan manajerial Perancang sistem

COMPETENCY

• • •

Synthesizing, integrating, and designing skills Managerial skills System designer

POKOK BAHASAN/

•

Pengantar sistem produksi dan konteks perencanaan dan pengendalian produksi. Peramalan permintaan, perencanaan produksi aggregat, pengelolaan persediaan. Jadwal induk produksi, perencanaan kebutuhan bahan, perencanaan kapasitas, pengendalian aktifitas produksi.

KOMPETENSI/

• •

SUBJECTS

• •

Beberapa teknik lain: Just In Time, Theory of Constraint Pengenalan ERP, dan pengenalan CPFR dalam konteks SCM

•

Introduction to production system and production planning and control context. Demand forecasting, aggregate production planning, inventory management. Production master plan, material requirements planning, capacity planning, production activity control. Other techniques: Just In Time, Theory of Constraint Introduction to ERP and CPFR in SCM context

• • • •

1. Arnold, J.R.T., dan Chapman, S.N., (2004), Introduction to Material Management, Fifth Edition, Pearson Prentice-Hall, Upper Saddle River, New Jersey 2. Dobler, D. W., Burt, D.N., and Lee, Jr., L., (1990), Purchasing and Materials Management Text and Cases, Fifth Edition, McGraw-Hill International Edition, Singapore 3. Tersine, Richard J., (1994), Principle of Inventory and Materials Management, Fourth Edition, Prentice-Hall International, London 4. Vollmann, T., Berry, W., Whybark, C., and Jacobs, R. (2005). Manufacturing Planning and Control Systems for Supply Chain Management Fifth Ed., McGraw-Hill.



TI091429 : Data Mining TI091429 : Data Mining Credits: 3 Semester: VII/VIII

TUJUAN PEMBELAJARAN/ Learning Objectives

KOMPETENSI/ Competencies

Membahas teknik-teknik dalam data mining,kasus-kasus di mana data mining bisa diterapkan, mengenalkan pemakaian software untuk implementasi. Tujuan mengenalkan teknikteknik data mining untuk prediksi, klasifikasi dan clustering, penghitungan dan penerapan untuk bidang perbankan, telekomunikasi dan marketing dengan menggunakan software. The course aims to discuss about data mining techniques and cases in which data mining can be applied, as well as to introduce the use of software for data mining application. Data mining techniques provides a prediction, classification and clustering, which can be applied in banking, telecommunication, and marketing with the help of software. • •

Keterampilan memecahkan masalah Keterampilan memanfaatkan teknologi informasi

Pokok Bahasan/ Subject

•

Ketrampilan Sintesis, integrasi, dan perancangan

• • •

Problem solving skills Proficiency in ICT Synthesizing, integrating, and designing skills

• • • • •

Pendahuluan, data preprocessing. Pengklusteran dan analisis diskriminan. Neural network, decision tree, support vector machine. Heuristic dalam data mining Kernel data mining.

• • • • •

Introduction and data preprocessing Clustering and discriminants analysis Neural network, decision tree, support vector machine. Heuristics in data mining Data mining Kernel

• • • Referensi/ References

• • •


Intro to business data mining, David olson, Yong shi Data Mining teknik pemanfaatan data untuk keperluan bisnis,budi santosa, Graha Ilmu2007 Data Mining Terapan dengan matlab (budi santosa, 2007), Graha Ilmu Introduction to Data Mining, Pang-Ning Tan, Michael Steinbach, Vipin Kumar , Prentice Hall Advanced data Mining Techniques, David L. Olson Dursun Delen, e-book Mastering data Mining, the art and science of CRM (Michael J Berry, Gordon S

TI091424: Ergonomi Makro TI091424: Macro Ergonomics Credits: 3 Semester: VII/VIII


Mata kuliah Ergonomi makro meliputi suatu analisa, desain, dan evaluasi organisasi dan sistem kerja yang dirancang melalui suatu pendekatan holistic atas dasar interaksi antara manusia mesin, pengguna dan sistem, manusia dan lingkungan dengan menempatkan teknologi baru ke dalam satu kesatuan sistem yang utuh. Tujuan mata kuliah ini adalah membekali mahasiswa dengan

kemampuan identifikasi suatu sistem industri pada tingkat makro [antar organisasi]. This course includes analysis, design, and organization evaluation and work system of which designed with holistic approach based on humanmachine interaction, system and users, human and environment by placing new technology in one whole system. It aims to provide students with skills to identify and analyze industrial system in a macro level (intra-organizations) • KOMPETENSI/COMPETENCY

POKOK BAHASAN/

SUBJECTS

• •

Ketrampilan Sintesis, perancangan Perancang sistem Ketrampilan manajerial

integrasi,

dan

• • •


• Konsep dasar ergonomic dan perkembangan ergonomic dalam HSI, Pengantar Ergonomi Makro; Basic Principle : organisasi, sistem kerja, produktivitas, error, complexity, dan perilaku manusia. • Klaster Industri sebagai contoh studi kasus Ergonomi Makro , Konsep pemodelan sistem atau Simulasi sistem dinamik, Participatory concept and The Team • Analisa system kerja dengan SAT [System Analysis Tool] dan MAS [Macroergonomics Analysis of Structure] • Macroergonomics method 1: Macroergonomics Organizational Questionnaire Survey [MOQS]; Macroergonomics method 2 : HITOP Analysis [High Integration of Technology, Organization, and People]; Macroergonomics method 3: TOP – Modeler; Macroergonomics method 4: The CIMOP system [Computer Integrated Manufacturing, Organization, and People]; Macroergonomics method 5: Anthropotechnology [terdiri atas: physical anthropology/ body dimension, cultural anthropology/ value system, cognitive anthropology/ cognitive model]; Macroergonomics method 6: Macroergonomic Analysis dan Design [MEAD]

• Studi kasus Ergonomi Makro. • Ergonomics basic concept and its development in HIS, introduction to Macro Ergonomics, basic principle: organization, work system, productivity, error, complexity, and human behavior. • Industrial cluster as a case study Macro Ergonomics, system modeling concept or dynamics system simulation, Participatory concept and The Team • Work system analysis using SAT (System Analysis Tool) and Macroergonomics Analysis of Structure (MAS). • Macroergonomics method 1: Macroergonomics Organizational Questionnaire Survey [MOQS]; Macroergonomics method 2: HITOP Analysis [High Integration of Technology, Organization, and People]; Macroergonomics method 3: TOP – Modeler; Macroergonomics method 4: The CIMOP system [Computer Integrated Manufacturing, Organization, and People]; Macroergonomics method 5: Anthropotechnology [terdiri atas: physical anthropology/body dimension, cultural anthropology/ value system, cognitive anthropology/ cognitive model]; Macroergonomics method 6: Macroergonomic Analysis dan Design [MEAD] • Macroergonomics case studies • • PUSTAKA UTAMA/REFERENCES

•

•

Lehto, M. R. et al (2008) Introduction and Human Factors and Ergonomics for Engineers. Lewis, G. (2006) Organizational Crisis Management, The Human Factor. Auerbach Publications Pierre, M., et al (2008) Crisis Management in Acute Care Settings. Human Factors and Team Psychology in a High Stakes Environment. Stanton, N., et al (2005) Handbook of Human Factors and Ergonomics Method. CRC Press.

PASCA SARJANA (S2 & S3)

Program Studi Department Jenjang Pendidikan Programme


PROGRAM PASCASARJANA (S2) Graduate Study (Master)

Kompetensi Lulusan

1. 2. 3. 4. 5.

Perancang system Pengelola dan pengendali sistem Pengambil Keputusan Pekerja kelompok Enterpreneur

Graduate Competence

1. 2. 3. 4. 5.

System designer System manager and controler Decision maker Team worker Enterpreneur

STRUKTUR KURIKULUM/COURSE STRUCTURE MATRICULATION 1 Perancangan Sistem Kerja Work Design 2 Riset Operasi & Aplikasi Komputer OR & Computer Application 3 Statistik dan Aplikasi Komputer Statistics and Computer Application 4 Perencanaan dan Pengendalian Produksi Dasar Basic Production Planning &Control 5 Sistem Manufaktur Manufacturing System 6 Pengantar Teknik Industri dan Soft Skills Intro to Industrial Engineering and Soft Skills Jumlah sks/Total of credits SEMESTER I 1 Statistik Industri Lanjut Advanced Industrial Statistics 2 Riset Operasi Lanjut Advanced Operations Research 3 Perencanaan dan Pengendalian Produksi Lanjut Advanced Production Planning & Control 4 Akuntansi Manajerial Managerial Accounting Jumlah sks/Total of credits SEMESTER IV 1 Tesis Thesis Jumlah sks/Total of credits

1 1 1 1 1 1 6 2 3 3 2 10 6 6

Course Title : Industrial Ergonomics and Safety No.

Kode MK Code

1 2

3 4

1 2 3 4

Nama Mata Kuliah (MK) Course Title SEMESTER II Aplikasi Ergonomi Industri Applied Industrial Engineering Faktor Manusia dalam Perancangan & Pengembangan Produk Human Factors in Product Design & Development Metodologi Penelitian Research Methodology Pilihan 1 Elective Courses 1 Jumlah sks/Total of credits SEMESTER III Ergonomi Makro Macro-Ergonomics Kesehatan & Keselamatan Industri Industrial Health and Safety Engineering Seminar Proposal dan Review Jurnal Journal Review and Proposal Seminar Pilihan 2 Elective Courses 2 Jumlah sks/Total of credits

Sks Credits 3 3

2 2 10 2 3 3 2 10

Course Title : Strategic Performance Management No.

Kode MK Code SEMESTER II 1 2 3 4

SEMESTER III 1 2 3 4

Nama Mata Kuliah (MK) Course Title Manajemen Strategi Strategic Management Manajemen Pemasaran dan Hubungan Konsumen Marketing and Customer Relationship Management Metodologi Penelitian Research Methodology Pilihan 1 Elective Courses 1 Jumlah sks/Total of credits Manajemen Performansi Performance Management Financial Engginering Financial Engginering Seminar Proposal dan Review Jurnal Journal Review and Proposal Seminar Pilihan 2 Elective Courses 2 Jumlah sks/Total of credits

Sks Credits 3 3 2 2 10 2 3 3 2 10

Course Title : Quality and Manufacturing Management No.



Nama Mata Kuliah (MK) Course Title Manajemen Kualitas Quality Management Perancangan Sistem Manufaktur Manufacturing System Design Metodologi Penelitian Research Methodology Pilihan 1 Elective Courses 1 Jumlah sks/Total of credits Teknik Keandalan Reliability Engineering Sustainable Manufacturing Sustainable Manufacturing Seminar Proposal dan Review Jurnal Journal Review and Proposal Seminar Pilihan 2 Elective Courses 2 Jumlah sks/Total of credits

Sks Credits 3 3 2 2 10 2 3 3 2 10

Course Title : Industrial System Optimizations No.



Nama Mata Kuliah (MK) Course Title Sistem Dinamik Dynamic System Permodelan Sistem Optimasi Optimization System Modeling Metodologi Penelitian Research Methodology Pilihan 1 Elective Courses 1 Jumlah sks/Total of credits Simulasi Diskrit Discrete Event Simulation Data Mining untuk Bisnis Data Mining for Business Seminar Proposal dan Review Jurnal Journal Review and Proposal Seminar Pilihan 2 Elective Courses 2 Jumlah sks/Total of credits

Sks Credits 3 3 2 2 10 2 3 3 2 10

Course Title : Logistics and Supply Chain Management No.

Kode MK

Nama Mata Kuliah (MK)

Sks

Code SEMESTER II 1 2 3 4


Course Title Rekayasa Rantai Pasok Supply Chain Engineering Perancangan Sistem Distribusi dan Transportasi Transportation and Distribution System Design Metodologi Penelitian Research Methodology Pilihan 1 Elective Courses 1 Jumlah sks/Total of credits Teknologi Informasi dalam Rantai Pasok IT for Supply Chain Manajemen Pengadaan dan Material Procurement and Material Management Seminar Proposal dan Review Jurnal Journal Review and Proposal Seminar Pilihan 2 Elective Courses 2 Jumlah sks/Total of credits

Credits 3 3 2 2 10 2 3 3 2 10





TI0920XX : Metodologi Penelitian TI0920XX : Research Methodology Credits: 2 Semester: I Mata kuliah ini didesain untuk memberikan pemahaman mengenai penelitian dan mengenalkan berbagai metode penelitian yang yang penting dalam bidang teknik industri. Tujuannya adalah membentuk dasar-dasar penelitian yang akan dilaksanakan oleh mahasiswa. Dengan ketrampilan dan pengetahuan yang diperoleh dari mata kuliah ini, mahasiswa disiapkan untuk mampu melaksanakan penelitiannya serta dapat menjadi knowledgable consumers bagi produk-produk penelitian ilmiah yang ada. This course is designed to provide you with an understanding of research and an introduction to a range of essential research methods in industrial engineering. It forms the basis for all research that students will conduct. Skills developed and knowledge acquired from this course will prepare students to conduct their own research, as well as to be knowledgeable consumers of others' research. • • •

Intrapersonal dan communication skills Ketrampilan memanfaatkan teknologi informasi Penguasaan bahasa Inggirs dan/atau bahasa asing lainnya

• • •

Intrapersonal and communication skills Proficiency in ICT Proficiency in English and or other language

• Pengantar methodology penelitian, Student Centered Learning (SCL), berpikir kritis, Peer Review sebagai cara efektif dalam proses pembelajaran, pemahaman riset, dan motivasi penelitian. • Penanganan isu-isu yang bersifat praktis dan konseptual, membedakan Tugas Akhir dan Thesis berdasarkan paradigma yang digunakan, memilih topik penelitian dan mencari literature, dan mind mapping. • Berbagai topik yang berhubungan dengan studi pustaka, berbagai gaya penulisan daftar pustaka, penulisan alur argumen, referensi, pengaturan pustaka, dan pengenalan EndNote. • Menentukan desain penelitian, macam-macam metode dalam penelitian, dan tutorial proposal penelitian. • Penulisan proyek, hasil penelitian, paper, dan presentasi serta

bagaimana menyiapkan sebuah presentasi. • Session I: Introduction to Research Methodology, Student Centered Learning (SCL), Critical Thinking, peer review as an effective method in learning process, understanding research, research motivation • Dealing with practical issues and conceptual issues, distinguishing Final Projects and Thesis based on paradigm used, choosing a research topic and searching the literature, and mind mapping. • All about literature review, styles in writing a literature review, write a flow of arguments, referencing, handling literatures, introduction to EndNote. • Determining the research design, various methodologies in research, research proposal tutorial. • Writing up the project, the result, a paper and all about presentation and how to prepare it.



1. Hussey, J. and Hussey, R. (1997) Business Research: A Practical Guide for Undergraduate and Postgraduate Students, Macmillan Business, London. 2. Cooper, D. R. and Schindler, P. S. (2003), Business Research Methods, McGraw Hill, Singapore. 3. Sekaran, U. (2003) Research Methods for Business: A Skill Building Approach, John Wiley & Sons, USA.

TI0920XX : Perencananaan dan Pengendalian Produksi Lanjut TI0920XX : Advanced Production Planning and Control Credits: 2 Semester: I


Mata kuliah ini bertujuan membekali mahasiswa dengan konsep, metode, dan alat bantu dalam perencanaan dan pernjadwalan sumber daya untuk pemenuhan permintaan konsumen dengan biaya yang efektif. Materi yang dibahas meliputi perbedaan-perbedaan dalam sistem perencanaan produksi, teknik-teknik peramalan permintaan, perencanaan penjualan dan operasional, mengelola perencanaan kebutuhan material, mangelola pengadaan untuk permintaan independen, jadwal induk produksi, perencanaan kapasitas, penjadwalan dan urutan pekerjaan, aktifitas kontrol produksi, serta topik-topik lain yang relevan termasuk Just In Time, Theory of

Constraint, dan sekilas tentang sistem Enterprise Resource Planning (ERP). The objective of this course is to equip students with concepts, methods, and tools in planning and scheduling of resources to satisfy demand from customers in a cost effective way. The subject covers such materials as differences in production planning systems, demand forecasting techniques, sales and operations planning, managing independent demand inventories, master production scheduling, material requirements planning, capacity planning, scheduling and sequencing of jobs, production activity control, as well as other relevant topics including just in time, theory of constraint, and overview of enterprise resources planning systems.


• • •

Keterampilan Manajerial Intrapersonal dan communication skills Perancang sistem

• • •

Managerial skills Intrapersonal and communication skills System designer

•

PengantarPerencanaan dan Pengendalian Produksi (PPC) dan PPC dalam konteks Supply Chain Management (SCM) Strategi manufaktur dan implikasinya pada PPC, dan kerangka PPC. Proses-proses dalam PPIC:peramalan permintaan, perencanaan operasi dan penjualan, jadwal induk produksi danbill of materials, pengendalian inventory untuk produk independen, MRP, perencanaan kapasitas (rough cut capacity planning and capacity requirement planning). Pengendalian aktifitas produksi (penjadwalan operasi, pengelolaan antrian, input/output kontrol) Teknik PPIC lainnya: JIT, TOC, peranan ERP.

• •

POKOK BAHASAN/SUBJECTS • • • •

Introduction to Production Planning and Control (PPC) and PPC within the context of Supply Chain Management (SCM) Manufacturing strategy and its implications to

•

• •



PPC, PPC framework PPIC Processes: demand forecasting, sales and operations planning, master production schedule and bill of materials, inventory control for independent items, MRP, capacity planning (rough cut capacity planning and capacity requirement planning). Production activity control (operations scheduling, queue management, input/output control) Other PPIC techniques: JIT, TOC, the role of ERP.

1. Fogarty, D. W., Blackstone, J. H., and Hoffmann, T. R. (1991).Production and Inventory Management 2nd Ed., South Western Publishing. 2. Vollmann, T., Berry, W., Whybark, C., and Jacobs, R. (2005). Manufacturing Planning and Control Systems for Supply Chain Management Fifth Ed., McGraw-Hill. 3. Nahmias, S. (2000). Production and th Operations Analysis, 4 Ed., McGraw-Hill/Irwin

TI0920XX : Statistik Industri Lanjut TI0920XX : Advanced Industrial Statistics Credits: 2 Semester: I



Memberikan pemahaman mengenai statistik multivariate, pengenalan teknik-teknik multivariate dan contoh aplikasi dalam memecahkan persoalan yang berkaitan dengan data dan eksperimen dimana variabel independent lebih dari satu. To understand about multivariate statistics, to introduce multivariate techniques and example application in solving problems related with data and experiments of more than one independent variables. • • •

Keterampilan memecahkan masalah Keterampilan memanfaatkan teknologi informasi Ketrampilan Sintesis, integrasi, dan

perancangan


• • •

Problem solving Skills Proficiency in ICT Synthesizing, integrating, and designing skills

• •

Intro Multivariate analysis Simple LR, Anova, Multiple Linear Regression Model, Logistics Regression Data manipulation, Principal Components, Factor analysis Discrimination analysis Clustering

• • • •


• •


TI0920XX : Akuntansi Manajerial TI0920XX : Managerial Accounting Credits: 2 Semester: I

TUJUAN PEMBELAJARAN/ Learning Objective


Applied Multivariate Techniques, subhash sharma, wiley and son Applied multivariate statistics, R Johson and D Wichern, Prentice Hall Statistics for engineers and scientist, Walpole

Akuntansi Manajerial mengupas bagaimana melakukan akumulasi biaya yang terjadi dalam organisasi untuk menyediakan informasi bagi manajemen internal dalam pengambilan keputusan dan pengendalian biaya. Tujuan kuliah ini adalah memberikan untuk memberikan pengetahuan dan ketrampilan bagi mahasiswa untuk memahami konsep-konsep maupun model-model dalam akuntansi manajerial serta aplikasinya di dalam kasus nyata. Managerial Accounting discusses in depth on how to perform costs accumulation involved within an organization to provide information for internal management as decision-making and cost control tool. The course aims to provide students with understanding of concepts and models in managerial accounting and their application in real problems. • • •

Keterampilan manajerial Keterampilan memanfaatkan teknologi informasi Ketrampilan Sintesis, integrasi, dan perancangan

•

Managerial Skills

• •

Proficiency in ICT Synthesizing, integrating, and designing skills

•

Pengantar Akuntansi Managerial, konsep dan klasifikasi biaya Sistem pembebanan biaya berdasarkan pesanan, sistem pembebanan biaya berdasar proses, sistem pembebanan biaya berdasar aktifitas. Manajemen berbasis aktifitas dan Sistem anggaran berbasis aktifitas. Analisis aktifitas, perilaku dan estimasi biaya, analisis titik impas, penetapan biaya standard dan analisis variannya, sistem anggaran flexible dan analisis variannya. Akuntansi pertanggungjawaban, desentralisasi, penetapan harga transfer.

• • • •


• • • • •

1. Hilton, “Managerial Accounting”, 5th, McGraw Hill, 2008 2. Mowen, H., “Management Accounting”, 2008 3. Gray & Rickets, “Cost & Managerial Accounting”, McGraw Hill, 1982



Introduction to Managerial Accounting, cost classification and concept Job order costing, process costing, activity based costing. Activity Based Management and Activity Based Budgeting. Activity analysis, behaviour and cost estimation, Break Even Point, standard cost determination and variance analysis, flexible budgeting system and variance analysis. Accounting reporting, decentralization, transfer price determination.

TI0920XX : Penelitian Operasional Lanjut TI0920XX : Advanced Operations Research Credits: 3 Semester: I


Mata kuliah ini bertujuan mengenalkan konsep dasar dan metode penyelesaian permasalahan persamaan linear, pemrograman linear serta aplikasi-aplikasi programa linear dalam permasalahan transportasi, penugasan, dan Network Flows Problem. Mahasiswa diarahkan untuk mampu menghitung, menerapkan serta memiliki ketrampilan memecahkan masalah dengan memanfaatkan software yang

berkaitan dengan masalah-masalah tersebut. The course aims to introduce the basic concepts and solving methods of linear linear equations, linear programming and its applications on the transportation, assignment, and Network Flows Problem. It builds students’ capability to compute, apply, and to have proficiency in solving such problems using software application.


• • •

Keterampilan memecahkan masalah Keterampilan memanfaatkan teknologi informasi Ketrampilan sintesis, integrasi dan perancangan

• • •


•

Pengantar permodelan yang bersifat deterministik: Linear Programming, konsep matriks dan vektor. Metode penyelesaian: metode grafis, metode simplex Teori Duality Aplikasi linear programming dalam transportasi, penugasan dan Network Problems: Maximal Flow Problem, Minimum spanning tree, Shortest path problem, minimum cost flow Linear programming tingkat lanjut

• • •


• • • • •

•


Introduction to deterministic modeling: Linear Programming, matrix and vector concepts. Solving methods: graphical method, simplex method Duality theorem Linear Programming applications in transportation, assignment, and network problems: Maximum flow problem, minimum spanning tree, shortest path problem, minimum cost flow. Advanced linear programming 1. Winston, Wayne, L. (2004). Operations Research: Applications and Algorithms. Thomson Learning, Inc. 4th Edition. 2. Taha, Hamdy, A. (2003). Operations Research: An Introduction. Prentice Hall Education, 7th edition. 3. Hillier, F. S. And G. J. Lieberman (2002). Introduction to Operations Reserach. McGraw-Hill. 4. Bazaraa, Mokhtar S. Linear Programming and Network Flows. John Wiley & Sons Inc, 3rd Edition. 5. Ravindran and Philips, Don T., (2000). Operations

Research: Principles and Practice. John Wiley.



LEARNING OBJECTIVES

TI0920XX : Aplikasi Ergonomi Industri TI0920XX : Applied Industrial Ergonomics Credits: 3 Semester: II Aplikasi Ergonomi Industri membahas tentang aspek-aspek kemampuan, potensi, dan keterbatasan manusia dalam berinteraksi dengan sistem kerjanya. Juga dibahas dalam mata kuliah ini, implementasi prinsip-prinsip Ergonomi di dalam aplikasi industri. Applied Industrial Ergonomics discusses about human aspects in terms of capabilities, potentials, and limitations when interacting with their working system. Also discussed in this course, the implementation of ergonomics principles in industrial applications. • • •

Ketrampilan Sintesis, integrasi, dan perancangan Perancang sistem Keterampilan manajerial

COMPETENCY

• • •

Synthesizing, integrating, and designing skills System designer Managerial skills

POKOK BAHASAN/

• •

Dasar-dasar ergonomi dan perkembangan kedepannya. Human centered/integrated design, prinsip-prinsip ergonomi dalam aplikasi industri, antropometri teknik, keletihan dan daya tahan (cardiovascular), Biomekanik kerja. Model manipulatif (kinesiology), model berbasis lingkungan (eksternal), model kognitif (pikiran). Interaksi manusia komputer/ usability analysis. Ergonomi informasi.

KOMPETENSI/

• • • SUBJECTS

• •

Basic ergonomics and future development. Human centered/ integrated design, Ergonomics principles in industrial application, engineering anthropometry, fatigue

• • •

PUSTAKA UTAMA/

REFERENCES

and endurance (cardiovascular), and Biomechanics of Work. Manipulative model (kinesiology), environmental model (external), cognitive model (thought). Human computer interaction/ usability analysis Information Ergonomics.

1. Konz, Stephan. Work Design: Industrial Ergonomics. Scottsdale, Arizona: Publishing Horizons, Inc., 1995. 2. Lehto, M. R and Buck, J.R. Intoduction to Human Factors and Ergonomics for Engineers. New York, 2008. 3. Stanton, N., Hedge, A., Brookhuis, K., Salas, E., and Hendrick, H. Handbook of Human Factors and Ergonomics Methods. CRC Press, 2005. 4. Tayyari, Fariborz and Smith, James L. Occupational Ergonomics:Principles and Applications. London : Chapman & Hall, 1997 5. Granjean, E. Fitting the Task to the Man: an Ergonomic Approach. London: Taylor & Fabrics Ltd., 1982. 6. Huchingson, Dale R. New Horizons for Human Factors in Design. New York:McGraw-Hill Book company, 1981. 7. Pulat, B. Mustafa. Fundamentals of Industrial Ergonomics. Englewood Cliffs, N.J.: Prentice-Hall, 1992. 8. Sanders, M.S. and McCormick, E.J. Human Factors in Engineering and Design. New York: McGraw-Hill Inc., 1992.

TI0920XX : Faktor Manusia dalam Perancangan MATA KULIAH/ COURSE TITLE


&Pengembangan Produk TI0920XX : Human Factors in Product Design & Development Credits: 3 Semester: II Manusia sebagai pengkonsumsi produk merupakan faktor paling penting dalam perancangan produk. Mata kuliah ini bertujuan untuk memberikan pemahaman mengenai bagaimana merancang produk dengan mempertimbangkan faktor manusia baik secara kognitif maupun psikomotorik. Akan dibahas pula tentang bagaimana mengidentifikasi peluang-peluang pengembangan produk inovatif, menerjemahkan perilaku konsumen dalam Voice of Customer dan mentransformasikannya dalam wujud produk jadi, serta memahami trade off antara biaya dan kualitas dalam spesifikasi produk. Human being as the products consumer is the most important

LEARNING OBJECTIVES

KOMPETENSI/

COMPETENCY

factor of product design. The course aims to deliver understanding on how to design industrial product by considering human factors, including cognitive and psychomotoric. It also provides students with techniques to identify opportunities of innovative product development, to translate customers’ behaviour into Voice of Customer and transform it into a finished product, as well as to understand the trade off function of cost and quality in product spesification. • • •


• • •


• •

Pengertian produk industri dan perancangan produk baru. Perilaku manusia dan perancangan produk, desain ergonomi dalam perancangan produk, dan Kansei engineering sebagai strategi pengembangan produk berbasis ergonomi. Ethnography: observasi perilaku dan kebutuhan tersembunyi konsumen, Quality Function Deployment (QFD). Fase-fase perancangan produk: - Fase 0: Perencanaan produk - Fase 1: Pengembangan konsep dan inovasi - Fase 2: Perancangan tingkatan sistem - Fase 3: Perancangan detail produk - Fase 4: prototyping - Fase 5: Pengujian dan perbaikan Studi kasus.

• • POKOK BAHASAN/

• • • • SUBJECTS

•

•

Industrial product definition and new product design. Human behaviour and product design, ergonomic design in product design, Kansei engineering as an ergonomic based strategy in product development. Ethnography: behaviour observation and hidden needs of customers. Phases in product design: - Phase 0: Product planning - Phase 1: Innovation and concept development - Phase 2: Design of system detail - Phase 3: Design of product detail - Phase 4: prototyping - Phase 5: Testing and evaluating Case studies.

1. Ulrich, K.T. and Eppinger, S.D. Product Design and Development. New York: McGraw-Hill, Inc., 2000. 2. Loch, C. and Kavadias, S. (2008) Handbook of New Product Development Management. Elsevier 3. Annacchino, M. (2003) New Product Development From Initial Idea to Product Management. Elsevier. ISBN : 0750677325 4. Cross, Nigel. Engineering Design Methods: Strategies for Product Design. New York; John Wiley & Sons, 1996. 5. Roozenburg, NFM and J. Eekels. Product Design: Fundamentals and Methods. Chicester: John Wiley & Sons, 1995. 6. Urban, Glen L. and John R. Hauser. Design and Marketing of New Products. Englewood Cliffs, NJ : Prentice-Hall Inc., 1993. 7. Wright, Ian. Design Methods in Engineering and Product Design. London: McGraw-Hill Co., 1998.



TI0920XX : Ergonomi Makro TI0920XX : Macro Ergonomics Credits: 2 Semester: III



Mata kuliah ini juga disebut socio-technical study, mempelajari interface antara manusia dan teknologi. Misalnya studi tentang dampak teknologi terhadap hubungan sosial dan organisasi. Tujuan dari mata kuliah ini adalah menciptakan suatu sistem kerja yang harmonis sehingga berdampak pada peningkatan produktivitas, kepuasan kerja, kesehatan dan keselamatan kerja, dan komitmen pegawai. Also called socio-technical study, this course studies the interface between society and technology. For example the study of the impacts of technology for social relationships and institution. It aims to create fully harmonized work system, which result in improved productivity, job satisfaction, health & safety, and employee commitment. • • •

Perancang sistem Keterampilan memanfaatkan teknologi informasi Ketrampilan Sintesis, integrasi, dan perancangan

• • •

System designer Proficiency in ICT Synthesizing, integrating, and designing skills


• Pengantar ergonomi makro • Konsep pemodelan sistem dan Simulasi sistem dinamik, Participatory concept and The Team • Analisa system kerja dengan SAT (System Analysis Tool) dan MAS (Macroergonomics Analysis of Structure) • Klaster Industri sebagai contoh studi kasus Ergonomi Makro • Macroergonomics methods: - Macroergonomics Organizational Questionnaire Survey (MOQS) - HITOP Analysis (High Integration of Technology, Organization, and People) - The CIMOP system (Computer Integrated Manufacturing, Organization, and People) - Anthropotechnology; terdiri atas: physical anthropology/ body dimension, cultural anthropology/ value system, cognitive anthropology/ cognitive model. - Macroergonomic Analysis dan Design (MEAD) - TOP – Modeler • Introduction to Macro Ergonomics • System modeling conceptand Dynamics System Simulation, Participatory concept and The Team • Work System Analysis using SAT (System Analysis Tool) and MAS (Macroergonomics Analysis of Structure) • Industrial cluster as a case study of Macro Ergonomics • Macroergonomics methods: - Macroergonomics Organizational Questionnaire Survey (MOQS) - HITOP Analysis (High Integration of Technology, Organization, and People) - The CIMOP system (Computer Integrated Manufacturing, Organization, and People) - Anthropotechnology; terdiri atas: physical anthropology/ body dimension, cultural anthropology/ value system, and cognitive anthropology/ cognitive model. - Macroergonomic Analysis dan Design (MEAD) - TOP – Modeler


1. Lehto, M. R. et al (2008) Introduction and Human Factors and Ergonomics for Engineers. 2. Lewis, G. (2006) Organizational Crisis Management, The Human Factor. Auerbach Publications 3. Pierre, M., et al (2008) Crisis Management in Acute Care Settings. Human Factors and Team Psychology in a High Stakes Environment. 4. Stanton, N., et al (2005) Handbook of Human Factors

and Ergonomics Method. CRC Press.



TI0920XX : Sistem Kesehatan dan Keselamatan Kerja TI0920XX : Industrial Safety and Health Engineering Credits: 3 Semester: III Mata kuliah ini bertujuan untuk memberikan pemahaman mengenai standard dan prosedur K3 dalam industri, mengidentifikasi resiko kerja, menangani resiko potensial dan merancang langkah penanggulangan. Mata kuliah ini memberikan kemampuan untuk merancang sebuah sistem K3. This course is designed to provide students with understanding of standards and prosedures of health and safety environment, work risk identification, how to handle potential risks and preventive actions in dealing with such risks. It builds students’ skills to design a safety management system. •

KOMPETENSI/

• •

COMPETENCY

• • • • •


• • • • • • • •

Kemampuan mengakomodasikan isu lingkungan dan keberlanjutan Perancang sistem Keterampilan manajerial Ability to accommodate sustainabilities System designer Managerial skills

environmental

issues

&

Sistem manajemen K3 Kerugian akibat kecelakaan dan efek domino, bahaya dan bagaimana mengontrol bahaya, sumber-sumber bahaya. Keandalan manusia, analisa K3, kajian resiko K3. Peringatan dini dan evakuasi K3 dan system informasi, permodelan dan simulasi K3, K3 dalam transportasi. Safety Management System Accident Losses and The Domino Effects, Hazards and how to control, source of hazards. Human Reliability, Safety Analysis, Safety Risk Assessment Early warning system and evacuation Safety and information system, safety modeling and

simulation, safety in transportation. PUSTAKA UTAMA/REFER ENCES




POKOK BAHASAN/

SUBJECTS

1. Asfahl, C.Ray. (1999). Industrial Safety and Health Management, fourth edition. Prentice Hall, New Jersey. 2. Hammer, Willie & Price, Dennis. (2001).Occupational Safety Management and Engineering, fifth edition. Prentice Hall, New Jersey.

TI0920XX : Manajemen Strategi TI0920XX : Strategic Management Credits: 3 Semester: II Mata kuliah memberikan pemahaman mengenai kumpulan gagasan-gagasan dalam manajemen strategi, mengeksplorasi kekuatan dan kelemahan dari tiap gagasan tersebut, serta memahami model terbaru yang diimplementasikan dalam perancangan strategi korporasi. Mata kuliah ini akan menggali lebih dalam kumpulan gagasan-gagasan yang ada tersebut, termasuk asumsi yang digunakan, model, kekuatan, kelemahan dan implementasinya. The course provides students with understanding of various thoughts in strategic management. It explores the strengths and weaknesses of each thought, and understand the latest models implemented in corporate strategic design. Through this course, students will learn that school of thought, including base assumptions, models, strengths, weaknesses, and the implementation. • • •

Keterampilan sintesis, integrasi, dan perancangan Keterampilan manajerial Ketrampilan memecahkan masalah

• • •


• • • • •

Pengantar manajemen strategi, perumusan visi dan misi. Formulasi strategi: kajian lingkungan eksternal dan internal Strategi generic, fitting strategy, perencanaan strategis. Model manajemen strategi saat ini, strategi Blue Ocean. Implementasi dan evaluasi strategi.

•

Introduction to strategic management, vision and mission formulation. Strategic formulation: external and internal factor evaluation.

•

• •



•

Strategy generic, fitting strategy, and strategic planning. Current models of strategic management, and Blue Ocean strategy. Strategy implementation and evaluation.

1. 2. 3. 4. 5. 6.

Strategic Management: Davids Strategic Management: Thompson Strategy Safari : Mintzberg Strategy Focus Organization: Kaplan and Norton The discipline of market leader : Tracy and Wiersema Blue ocean strategy: Chan Kim and Mauborgne

TI0920XX : Man. Pemasaran dan Customer Relationship TI0920XX : Marketing and Customer Relationship Man. Credits: 3 Semester: II



Mata kuliah ini mengajarkan tentang proses dasar dalam management pemasaran produk/jasa yang meliputi proses segmentasi, targetting, positioning (STP), konsep mix marketing, strategi harga dan strategi pemasaran produk dalam setiap tahapan siklus hidup maupun untuk pengembangan produk baru. Selain itu, mata kuliah ini membahas tentang konsep bagaimana memuaskan konsumen dan membuat program loyalitas dan retensi konsumen dengan strategi CRM yang berbasis konsep “new wave marketing”. The course provides student with knowledge and understanding basic process in product/services marketing management in which includes: segmentation process, targeting, positioning, mix marketing concepts, pricing strategy and product marketing strategy in each stage of life cycle for new product development. Also discussed in this course are the concept of how to deliver customers’ satisfaction with customer relationships and marketing strategy of which based on “new wave marketing”. • • •

Keterampilan sintesis, integrasi, dan perancangan Keterampilan manajerial Intrapersonal dan kemampuan berkomunikasi

• •

Synthesizing, integrating, and designing skills Managerial skills

POKOK BAHASAN/

•

Intrapersonal and communication skills

• •

Pengantar manajemen pemasaran Proses segmentasi, targetting, dan penempatan produk (STP), dan penerjemahan STP dalam strategi mix marketing. Perilaku konsumen, mengukur kepuasan konsumen. Pengantar Customer Relations and Marketing (CRM) dan hubungannya dengan ERP Dasar-dasar e-mail dan strategi pemasaran berbasis web.

• • •

SUBJECTS

• • • • •




LEARNING OBJECTIVES

Introduction to marketing management Segmentation, targeting, and positioning process (STP), and STP interpretation into mix marketing strategy. Customer behavior, measuring customer satisfaction Introduction to CRM and its relationship with ERP Basic concepts of e-mail and web marketing strategy.

1. Kotler, Phillips (2000). Marketing Management, milenium edition, PHI. 2. Al Ries, Jack Trout (1989). Bottom-Up Marketing, Mc. Graw Hill International Editions marketing Series.

TI0920XX : Manajemen Performansi TI0920XX : Performance Management Credits: 2 Semester: III Mata kuliah ini memberikan pemahaman mengenai konsepkonsep sistem manajemen pengukuran kinerja. Mata kuliah ini juga membangun kemampuan mahasiswa dalam perancangan sistem pengukuran kinerja terintegrasi yang seharusnya tidak hanya mempertimbangkan aspek finansial saja, tetapi juga aspek-aspek non finansial seperti kualitas, inovasi, konsumen, dan keandalan operasional, yang dipercaya juga turut meningkatkan profitabilitas, market share, dan operasi yang efektif dalam suatu perusahaan. This course enables students to understand the concepts of performance management system. It builds students’ skills in designing integrated performance measurement system, that should consider not only financial aspects, but also non financial aspects such as quality, innovation, customers, and operations reliability. Those aspects are believed, to support the increase of profitability, market share, and effective operation of a company.

KOMPETENSI/

COMPETENCY

• • •


• • •


• •

Pengantar manajemen performansi Konsep manajemen performansi dan model-model pengukuran kinerja Konsolidasi indikator kinerja, integrasi sistem pengukuran kinerja perusahaan dan sistem pengukuran kinerja karyawan. Penetapan target, dan perangkat lunak performance management. Sistem pengukuran kinerja untuk organisasi non profit, sistem pengukuran kinerja untuk rantai pasok, dan sistem pengukuran kinerja untuk klaster industri.

•

POKOK BAHASAN/

• •

• • • SUBJECTS • •




Introduction to performance management. Performance management concepts and performance measurement models. Work indicator measurement, integrating corporate performance measurement and employee performance measurement. Target setting, and performance management software. Performance measurement system for non-profit organization, performance measurement system for supply chain, and performance meaurement system for industrial cluster.

1. Balanced Scorecard : Kaplan and Norton 2. Strategic Focused Organization : Thompson 3. Performance Measurement Questionnaire: Nanni et al

TI0920XX : Financial Engineering TI0920XX : Financial Engineering Credits: 3 Semester: III Financial engineering merupakan multidisiplin yang mencakup teori finansial, metode-metode engineering, matematika, dan praktek pemrograman komputer. Mata kuliah ini dirancang sebagai pengenalan terhadap teori financial engineering dan

aplikasinya yang berfokus pada prinsip-prinsip keuangan korporasi dan ilmu investasi seperti cash flow stream, risk aversion, pricing of firms dan instrumen-instrumen keuangan, interest rate term structure, fixed income instruments duration, bond portfolio immunization, dan teori portfolio the Markowitz mean variance.

LEARNING OBJECTIVES

KOMPETENSI/

COMPETENCY

POKOK BAHASAN/

Financial engineering is a multidisciplinary field involving financial theory, the methods of engineering, the tools of mathematics, and the practice of programming. The course aims to introduce the theory of financial engineering and its applications which focus on the principles of corporate finance and investment science such as cash flow stream, risk aversion, pricing of the firms and finance instruments, interest rate term structure, fixed income instruments duration, bond portfolio immunization, and the Markowitz mean-variance portofolio theory. • • •

Ketrampilan sintesis, integrasi, dan perancangan Perancang sistem Keterampilan manajerial

• • •


• •

Keuangan dan financial engineering Investasi dan sumber pendanaan, prinsip bunga, nilai saat ini dan nilai masa depan stream, internal rate of return, cost of capital, dan teknik dasar membangun model finansial. Aplikasi: capital budgeting, optimal portfolios, dynamic cash flow processes, optimal management, the harmony theorem, evaluation of a firm. Pengembalian aset, variable random, pengembalian random, portfolio rataan dan variansi, the feasible set, model Markowitz, the two fund theorem, inclusion of risk free asset, the one-fund theorem Model capital asset pricing.

• •

• • •

SUBJECTS

• •

Finance and financial engineering Investment and funding sources, the principle of interest, present and future value of streams, internal rate of return, cost of capital, and the basic techniques to build financial model. Application: capital budgeting, optimal portfolios, dynamic cash flow processes, optimal management, the harmony theorem, evaluation of a firm. Asset returns, random variables, random returns, mean and variance portfolio, the feasible set, the Markowitz model, the

•




two fund theorem, inclusion of risk free asset, and the onefund theorem Capital asset pricing model.

1. Beamont, P. H. (2004). Financial Engineering Principles. New Jersey, John Wiley & Sons. 2. Brealey, R. A., S. C. Myers, et al. (2008). Corporate Finance. New York, Mc Graw Hill Book Publisher. 3. Gunarta, I. K. (2008). Financial Modelling dengan Menggunakan Excel dan Crystal Ball. Surabaya, Jurusan Teknik Industri. 4. Gunarta, I. K. (2008). Financial Model: Panduan untuk Membangun dan Mengintepretasikan Laporan Keuangan. Surabaya, Jurusan Teknik Industri ITS.

TI0920XX : Sustainable Manufacturing TI0920XX : Sustainable Manufacturing Credits: 3 Semester: II Mata kuliah ini didesain untuk memberikan pemahaman kepada mahasiswa mengenai isu-isu sustainabilty, konsep dan ruang lingkup dari Sustainable Manufacturing (SM), strategi-strategi dalam SM, dan alat-alat yang biasa digunakan dalam SM. Saat ini, mengintegrasikan sustainability ke dalam bisnis proses akan manambah total kinerja bisnis dan daya saing. Ketrampilan dan pengetahuan yang diperoleh dari mata kuliah ini akan mempersiapkan mahasiswa untuk menjadi sarjana teknik yang sadar lingkungan dan peka terhadap permasalahan lingkungan serta mampu memecahkan masalah-masalah tersebut dan meningkatkan kinerja industri.

LEARNING OBJECTIVES

This course is designed to provide students with an understanding of sustainability issues, the concepts and the scope of SM, the strategies in SM, the management approaches in SM, and tools commonly used in SM. In the current situation, integrating sustainability into business process will enhance business’s total performance and competitiveness. Skills developed and knowledge acquired from this course will prepare students to be environmentally conscious engineers who are sensitive to environmentally related problems and capable to solve those problems and enhance total performance of industries.

KOMPETENSI/

•

Kemampuan mengakomodasikan isu lingkungan dan keberlanjutan

COMPETENCY

• •

Perancang sistem Keterampilan manajerial

•

Ability to accommodate sustainabilities System designer Managerial skills

• • • •

POKOK BAHASAN/

• • • • • •

SUBJECTS • •


MATA KULIAH/

environmental

issues

&

Pengantar Sustainability, global warming dan permasalahan lingkungan lainnya, isu-isu sustainability makro Konsep-konsep Sustainable Manufacturing, ruang lingkup, strategi dan regulasi yang berhubungan dengan Sustainable Manufacturing. Life Cycle Management (LCM), Life Cycle Engineering (LCE): Desain untuk Lingkungan, Desain untuk Manufaktur, dan Desain untuk Perakitan. Life Cycle Assessment (LCA), and Life Cycle Costing (LCC), Product Data Management (PDM, Technical Support Upgrading, penggunaan ulang, manufaktur ulang, dan daur ulang. Introduction to Sustainability, global warming & other environmental problems, macro sustainability issues. Concepts of sustainable manufacturing, scope of sustainable manufacturing, strategies of sustainable manufacturing, regulations related to sustainable manufacturing. Life Cycle Management (LCM), Life Cycle Engineering (LCE): Design for Environment, Design for Manufacturing, and Design for Assembly. Life Cycle Assessment (LCA), and Life Cycle Costing (LCC), Product Data Management (PDM, Technical Support Upgrading, Reuse, Remanufacturing, Recycling.

1. Billatos, S.B. and Basaly, N.A. (1997) Green Technology and Design for the Environment, Taylor & Francis 2. Curran, M.A. (1996) Environmental Life-Cycle Assessment, McGraw-Hill 3. Fiksel, J. (1997) Design for Environment – Creating Eco – Efficient Products andProcesses, McGraw Hill 4. Hines, P. and Taylor, D. (2000) Going Lean, Lean Enterprise Research Centre, UK. 5. Steinhilper, R. (1998) Remanufacturing: The Ultimate Form of Recycling, Fraunhofer IRB Verlag, Stuttgart 6. Proceeding of CIRP International Seminar on Life Cycle Engineering, 1994 – 2008

TI0920XX : Permodelan Sistem Optimasi

COURSE TITLE

TI0920XX :Optimization System Modeling Credits: 3 Semester: II



Tujuan dari mata kuliah ini adalah memberikan pemahaman teknik-teknik metaheuristic untuk menyelesaikan masalah optimasi. The course aims to provide students with understanding metaheuristics techniques to solve optimization problems. • • •


• • •


• •

Pendahuluan metaheuristic Metaheuristics: Genetic Algorithm, Simulated Annealing, Tabu Search, Particle Swarm, Ant Colony Optimization, Harmony Search algorithm dan aplikasi-aplikasinya.

• •

Introduction to Metaheuristics Metaheuristics: Genetic Algorithm, Simulated Annealing, Tabu Search, Particle Swarm, Ant Colony Optimization, Harmony Search algorithm and their applications.

Pokok Bahasan/

Subject



TUJUAN

1. J. Dreo A. Petrowski,P. Siarry E. Taillard,Metaheuristics for Hard Optimization, Methods and Case Studies, springer 2. Karl F. Doerne,Metaheuristics Progress in Complex Systems optimization, springer. 3. Fred Glover, Gary A. Kochenberger, HANDBOOK OF METAHEURISTICS, Kluwer

TI0920XX : Sistem Dinamik TI0920XX : Dinamic System Credits: 3 Semester: II

Memberikan perspektif pendekatan metodologi Sistem Dinamik dalam memecahkan permasalahan sistem yang kompeks, membangun kemampuan memodelkan permasalahan-

PEMBELAJAR AN/

Learning Objectives


Pokok Bahasan/

permasalahan kompleks, mensimulasikan model, memvalidasi model, menganalisa dan membuat skenario kebijakan yang sesuai dengan tujuan system. Mata kuliah ini juga memberikan kemampuan untuk melihat sebuah permasalahan secara menyeluruh sehingga dapat melahirkan kebijakan-kebijakan dalam melakukan penyikapan atas permasalahan kompleks tersebut. To give an overview of Dynamic System approach methods in solving system complex problems, to develop students’ ability to model complex problems, simulate the models, validate the models, to analyze and to develop improvement scenarios related to the system purpose. It also provides students with practices on how to view a problem comprehensively in taking actions regarding the complex problem. • • •

Keterampilan memecahkan masalah Perancang Sistem Ketrampilan Sintesis, integrasi, dan perancangan

• • •

Problem solving skills System designer Syntetical, integrating, and designing skills

•

Konsep dasar metodologi Sistem Dinamik: pengenalan dalam berpikir sistem dan proses permodelannya, struktur dan perilaku sistem dinamik. Batasan sistem, diagram sebab akibat: struktur dan perilaku dalam sistem umpan balik positif-negatif tunggal, struktur dan perilaku dalam umpan balik positif-negatif jamak. Menganalisa masalah-masalah sederhana, pengenalan simulasi: konsep aliran materi dan informasi, persamaan level, persamaan rate, auxiliary, konstanta/parameter dan multiplier. Pengenalan konsep delay material dan informasi dalam sistem, konsep pulse dan step, konsep fungsi, konsep smoothing. Pendekatan sistem dinamik dalam analisa perancangan dan kebijakan Validasi model sistem dinamik, skenario kebijakan, dan analisa sensitivitas.

• •

• • • • Subject • •

Basic concepts of Dinamic System methodology: introduction in system thinking and modeling process, structure and dinamic system behaviour. System boundary, causal loop diagram: structure and behaviour in single multiple positive and negative feedback loop. Simple problems analysis, simulation introductory: material

• • •

and information flow concepts, level equation, rate equation, auxiliary, constants/parameters and multiplier. Introduction to the concept of material and information delay in a system, pulse and step concepts, function concepts, smooting concepts. Dinamic system approach in analyzing design and policies. Validation of dynamic system models, policies scenario, and sensitivity analysis.

• John D. Sterman : Business Dinamics : Systems Thinking and Modeling for Complex World. • Leslie A. Martin : Beginner Modeling Exercises, MIT System Dynamics in Education Project Under the Supervision of Dr. Jay W. Forrester. September 5, 1997 • Joseph G. Whelan : Modeling Exercises I, MIT System Dynamics Education Project Under the Supervision of Dr. Jay W. Forrester, May, 1994 • Joseph G. Whelan revised by Lucia Breierova, Modeling Exercises II, MIT System Dynamics Education Project Under the Supervision of Dr. Jay W. Forrester January 13, 1997 • Jay W. Forrester, System Dynamics, Systems Thinking, and Soft OR, Sloan School of MIT, August 18, 1992.


• Bell, J.A., and Senge, P.M. Enhancing refutability. In: Legasto, A.A. Jr.; Forrester, M.W.; and Lyneis, T.M., eds. System Dynamics . Elsevier North-Holland, 1980


TI0920XX : Data Mining untuk Bisnis TI0920XX : Data Mining for Business Credits: 3 Semester: III


Learning Objectives

Membahas teknik-teknik dalam data mining,kasus-kasus di mana data mining bisa diterapkan, mengenalkan pemakaian software untuk implementasi. Tujuan mengenalkan teknikteknik data mining untuk prediksi, klasifikasi dan clustering, penghitungan dan penerapan untuk bidang perbankan, telekomunikasi dan marketing dengan menggunakan software. The course aims to discuss about data mining techniques and cases in which data mining can be applied, as well as to introduce the use of software for data mining application. Data mining techniques provides a prediction, classification and clustering, which can be applied in banking, telecommunication, and marketing with the help of software.

KOMPETENSI/

• • •

Keterampilan memecahkan masalah Keterampilan memanfaatkan teknologi informasi Ketrampilan Sintesis, integrasi, dan perancangan

Competencies

• • •


• • • • •

Pendahuluan, data preprocessing. Pengklusteran dan analisis diskriminan. Neural network, decision tree, support vector machine. Heuristic dalam data mining Kernel data mining.

• • • • •

Introduction and data preprocessing Clustering and discriminants analysis Neural network, decision tree, support vector machine. Heuristics in data mining Data mining Kernel

Pokok Bahasan/

Subject

• • •

Referensi/

• References

• •


TI0920XX : Supply Chain Engineering TI0920XX : Supply Chain Engineering Credits : 3 Semester: II


Learning

Intro to business data mining, David olson, Yong shi Data Mining teknik pemanfaatan data untuk keperluan bisnis,budi santosa, Graha Ilmu2007 Data Mining Terapan dengan matlab (budi santosa, 2007), Graha Ilmu Introduction to Data Mining, Pang-Ning Tan, Michael Steinbach, Vipin Kumar , Prentice Hall Advanced data Mining Techniques, David L. Olson Dursun Delen, e-book Mastering data Mining, the art and science of CRM (Michael J Berry, Gordon S

Supply chain engineering terkait dengan analisis dan perancangan sistem aliran material dan informasi di sepanjang supply chain untuk menciptakan utilitas waktu dan tempat secara efisien. Mata kuliah ini bertujuan untuk memberikan keterampilan analisis dan perancangan jaringan

Objective

supply chain pada tingkat menengah sampai lanjut. Supply chain engineering is highly related to the material and information flow system and design in a supply chain to efficiently utilize time and space. This course aims to form students’ skills in designing and analyzing supply chain network in medium and advanced stages.

KOMPETENSI/

• • •

Keterampilan sintesis, integrasi, dan perancangan Keterampilan manajerial Keterampilan dalam perancangan sistem

Competencies

• • •

Synthetizing, integrating, and designing skills Managerial skills System designer

• •

Pengantar supply chain engineering Aspek-aspek strategi dan design dalam supply chain (efficiency vs. responsiveness, postponement, modularity, commonality) Inventory pooling effect pada perancangan jaringan, manajemen inventory terintegrasi untuk smooth demand Manajemen permintaan, pricing/revenue management Closed loop supply chain, manajemen suplai, dan contract dalam rantai pasok.

Pokok Bahasan/ • • •

Subject

• • • • •



Introduction to supply chain engineering. Strategic aspects and designing in supply chain (efficiency vs. Responsiveness, postponement, modularity, commonality). Inventory pooling effects in a network design, integrated inventory management for smooth demand. Demand management, pricing/revenue management. Closed loop supply chain, supply management, and contracts in supply chain.

1. Chopra, S., and Meindl, P. (2007). Supply chain management: Strategy, planning, and operations, 3rd Edition. New Jersey - Prentice-Hall. 2. Simchi-Levi, D., Kaminski, P., and Simchi-Levi, E. (2000). Designing and managing the supply chain: Concept, strategies, and case studies. Irwin McGraw-Hill.

TI0920XX : Manajemen Material dan Pengadaan TI0920XX : Procurement and Material Management

Credits: 3 Semester: III


LEARNING OBJECTIVES


POKOK BAHASAN/

Procurement & material Management mencakup materi yang terkait dengan pengadaan material dan manajemen material dari supplier sampai dengan di dalam proses produksi. Aktifitas meliputi perencanaan pengadaan material dan teknik-teknik perencanaan pengadaan. Metode-metode pemilihan dan evaluasi supplier. Tujuan mata kuliah ini adalah untuk memperdalam konsep pengadaan dan manajemen material dan model-model yang terkait dengan masalah tersebut. Dan membahas studi kasus dari journal-journal yang relevan. The course includes the topics related to the material procurement and management, from suppliers to the production process. It also includes material procurement planning and the techniques of procurement planning. It aims to discuss in depth about procurement concept and material management as well as related models in this topic. Case studies and relevant journals will be discussed in this course for enrichment. • • •

Keterampilan sintesis, integrasi, dan perancangan Keterampilan manajerial Perancang sistem

• • •

Synthesizing, integrating, and designing skills Managerial skills System designer

•

Pengantar sistem produksi dan konteks perencanaan dan pengendalian produksi. Peramalan permintaan, perencanaan produksi aggregat, pengelolaan persediaan. Jadwal induk produksi, perencanaan kebutuhan bahan, perencanaan kapasitas, pengendalian aktifitas produksi. Beberapa teknik lain: Just In Time, Theory of Constraint Pengenalan ERP, dan pengenalan CPFR dalam konteks SCM

• • • • •

SUBJECTS

• • • •

Introduction to production system and production planning and control context. Demand forecasting, aggregate production planning, inventory management. Production master plan, material requirements planning, capacity planning, production activity control. Other techniques: Just In Time, Theory of Constraint Introduction to ERP and CPFR in SCM context



1. Arnold, J.R.T., dan Chapman, S.N., (2004), Introduction to Material Management, Fifth Edition, Pearson Prentice-Hall, Upper Saddle River, New Jersey 2. Dobler, D. W., Burt, D.N., and Lee, Jr., L., (1990), Purchasing and Materials Management Text and Cases, Fifth Edition, McGraw-Hill International Edition, Singapore 3. Tersine, Richard J., (1994), Principle of Inventory and Materials Management, Fourth Edition, Prentice-Hall International, London 4. Vollmann, T., Berry, W., Whybark, C., and Jacobs, R. (2005). Manufacturing Planning and Control Systems for Supply Chain Management Fifth Ed., McGraw-Hill.

TI0920XX : Manajemen Logistik dan Rantai Pasok TI0920XX : Logistics and Supply Chain Management Credits: 2 Semester: Elective


Tujuan mata kuliah ini adalah untuk memberikan pengetahuan dan ketrampilan bagi mahasiswa untuk memahami konsepkonsep maupun model-model dalam manajemen logistik dan rantai pasok serta aplikasinya di dalam kasus nyata. Mahasiswa juga dibekali untuk trampil menggunakan aplikasi perangkat lunak bagi setiap materi perkuliahan yang membutuhkan. Dengan kombinasi antara kemampuan memahami problemproblem real, menterjemahkannya dalam model serta metoda penyelesaiannya, diharapkan mahasiswa mempunyai pengetahuan komprehensif tentang manajemen logistik dan rantai pasok.

LEARNING OBJECTIVES

The course aims to provide students with knowledge and skills to understand concepts and models of logistics and supply chain management as well as the application in real cases. It also forms students’ skills in using software helps for several subjects in this course. With the skills to understand real problems, interpreting the problems into models and determining the appropriate solving methods, students are expected to have a comprehensive knowledge about logistics and supply chain.

KOMPETENSI/

• • •

COMPETENCY

Keterampilan sintesis, integrasi, dan perancangan Keterampilan manajerial Keterampilan memanfaatkan teknologi informasi

• • •


• • •

Dasar-dasar perencanaan jaringan distribusi Keputusan lokasi fasilitas dalam jaringan distribusi Dasar-dasar perencanaan transportasi logistik dan keputusan-keputusan dalam transportasi logistik Sistem pergudangan dan pemindahan produk di gudang serta keputusan-keputusan yang terlibat di dalamnya Peranan teknologi informasi dan komunikasi dalam manajemen logistik dan rantai pasok.

• POKOK BAHASAN/ SUBJECTS

• • • • • •

1. Ghiani, Gianpaolo. (2004). Introduction to Logistics Systems Planning and Control. California: John Wiley and Sons, Ltd. 2. Ballou, Ronald. H. (2004) Business Logistics Management, Prentice Hall International, Inc., USA 3. Chopra, Sunil (2007). Supply chain Management: Strategy,Planning, and Operation. Prentice Hall International, Inc., New Jersey 4. Fleischmand et.al. (2003) Quantitative Modelling in Reverse Logistics, Springer



Basics of distribution network planning Decision of facilities location in distribution network Basics of logistics transportation planning Logistics transportation decisions Warehousing and warehouse material handling system and decisions The roles of information and communication technology in logistics and supply chain.

TI0920XX : Teknologi Informasi untuk Rantai Pasok TI0920XX : IT For Supply Chain Credits: 2 Semester: III


Teknologi Informasi (IT) bukan hanya topik tambahan dalam Manajemen Rantai Pasok. IT telah memungkinkan terjadinya komunikasi antara sekelompok rekan dagang, menurunkan biaya transaksi, meningkatkan aliran informasi, dan meredefinisi hubungan dalam rantai pasok. Selain itu, saat ini telah banyak perusahaan menggunakan IT untuk

menciptakan rantai pasok baru berbasiskan senjata kompetitif yang unggul. Mata kuliah ini membahas manajemen teknologi informasi dari sudut pandang manajemen rantai pasok. Mahasiswa akan dibimbing untuk memahami aplikasi-aplikasi IT dalam berbagai aspek dari suatu Manajemen Rantai Pasok yang mencakup keputusankeputusan, kebutuhan data untuk pengambilan keputusan, dan pemilihan tool pendukung keputusan (teknologi dan software). Mahasiswa juga didorong untuk mengkaji beberapa studi kasus dengan aplikasi IT dalam permasalahan Manajemen Rantai Pasok. Information technology (IT) is no longer an ancillary subject in Supply Chain Management. IT has opened up communications expanding the set of trading partners, lowering transaction costs, increasing information sharing and redefining supply chain relationships. Moreover, many companies are using IT to create powerful new supply chain based competitive weapons. This course considers information technology management from a supply chain management perspective. Students will study the applications of IT on various aspects of Supply Chain Management including the decisions made, the data requirements for these decisions; the selection of decision support tools (software and technologies). Students also are encouraged to learn from several case studies on IT and SCM issues.


• • •


• • •

Managerial skills Proficiency in ICT Syntetical, integrating, and designing skills

•

Pengantar, hubungan dan koordinasi antara rantai pasok dan teknologi informasi. Teknologi Informasi dan kaitannya dengan Manajemen Hubungan Pelanggan dan Manajemen Hubungan Pemasok. Teknologi Informasi dan Perdagangan secara elektronik, chanel distribusi, dan interface pelanggan. Aplikasi-aplikasi Enterprise untuk manajemen rantai pasok: Enterprises Resource Planning (ERP) dan masalah implementasinya, Enterprise untuk pengadaan, pergudangan, dan transportasi. Sistem pendukung keputusan untuk manajemen rantai pasok dan implementasi Automatic Identification and Data Capture (AIDC) yang meliputi Barcoding, Radio

•


• •

•

Frequency Identification (RFID) Tags, and Smart Cards, serta Standarisasi. • • • •

•



Introduction, IT and Supply Chain relationships and coordination. IT and Customer Relationship Management (CRM), IT and Supplier Relationship Management (SRM)/ Vendor Managed Inventory (VMI). IT and electronic commerce, IT and customer interface, IT and Intermediation and Distribution Channels. Enterprise applications for SCM: Enterprises Resource Planning (ERP) and implementation issues, Enterprise application for e-procurement, Enterprise application for Warehouse and Transportation. Decision Support System for SCM, and Automatic Identification and Data Capture (AIDC) that includes barcoding, Radio Frequency Identification (RFID) Tags, and Smart Cards, and standardization.

N/A

TI0920XX : Perencanaan Sistem Distribusi & Transportasi TI0920XX : Transportation and Distribution System Planning Credits: 3 Semester: III


Mata kuliah ini mengupas model matematis dalam perencanaan sistem transportasi dan distribusi, serta hubungan antara teori-teori lanjut dan aplikasi komputer yang bermanfaat. Mahasiswa yang mengikuti mata kuliah ini diharuskan memiliki ketrampilan dasar pemrograman dan permodelan riset operasi. Kuliah ini mempelajari permasalahan permodelan dan penyusunan algoritma eksak dan heuristik untuk memecahkan permasalahanpermasalahan yang ada. Pada bagian akhir perkuliahan, mahasiswa akan diarahkan untuk melaksanakan suatu tugas besar yang berkaitan dengan memecahkan permasalahan dalam perencanaan sistem distribusi dan transportasi. The class will explore the mathematical models in planning transportation and distribution systems, and the relationship between theoretical advances and useful computer applications. Students are required to have basic programming and operation research modeling skills.

Students will study modeling problems and building algorithms (exact and heuristic) to solve the problems. Students will be required to undertake a project in solving one of transportation and distribution system planning problem.


• • •


• • •

Managerial skills Proficiency in ICT Syntetical, integrating, and designing skills

•

Pengantar Perencanaan Sistem Distribusi dan Transportasi. Perencangan jaringan dan Graph Theory, Merancang dan Merencanakan jaringan rantai pasok. Model-model jaringan single echelon dan multi echelon. Permodelan transportasi Long haul dan Short haul. Routing Problems: Capacitated Vehicle Routing Problems (CVRP), Vehicle Routing Problems with Time Windows, VRP with Backhauls/Mixed Loads, Pick Up and Delivery Routing Problems, and Inventory Routing Problems.

• • • •


• • • • •


Introduction to Transportation and Distribution System Planning. Network Planning and Graph Theory, Designing and Planning Supply Chain networks. Single-echelon and Multi-echelon Network Models Long-haul and short-haul Transportation Modeling, shortest path problems. Routing Problems: Capacitated Vehicle Routing Problems (CVRP), Vehicle Routing Problems with Time Windows, VRP with Backhauls/Mixed Loads, Pick Up and Delivery Routing Problems, and Inventory Routing Problems.

1. Introduction to Logistics Systems Planning and Control (Wiley Interscience Series in Systems and Optimization) by Gianpaolo Ghiani, et al (2004) 2. The Vehicle Routing Problem Discrete Math (Siam Monographs on Discrete Mathematics and Applications) by Paolo Toth (Editor), Daniele Vigo (Editor) (2001) 3. The Logic of Logistics : Theory, Algorithms, and Applications for Logistics and Supply Chain Management (Springer Series in Operations Research and Financial Engineering) by David Simchi-Levi, et al (2004)


TI0920XX : Simulasi Sistem TI0920XX : System Simulation Credits: 2 Semester: Elective



Memberikan pemahaman mengenai teknik permodelan simulasi untuk analisis, perancangan, dan perbaikan suatu sistem industri. The course aims to provide students with understanding of simulation modeling techniques for analysis, designing, and improvement of an industrial system. • • •


• • •

Problem solving skills Proficiency in ICT Syntetical, integrating, and designing skills

• •

Sistem dan dinamika sistem Dasar-dasar simulasi: tipe simulasi, perilaku acak, pembangkitan bilangan acak dan pembangkitan variabel acak. Proses simulasi, prosedur simulasi, pengumpulan data dan analisa input. Pembentukan model konseptual, pembentukan model simulasi, verifikasi dan validasi model. Analisa output, uji hipotesa untuk membandingkan beberapa sistem, pencarian solusi optimal dengan simulasi.

• • • Pokok Bahasan/ Subject • • • • •

System and its dynamic Basic simulation: type of simulation, random behaviour, random number generation, random variable generation. Simulation process, simulation procedures, data collection and input analysis. Conceptual model building, simulation model building, model verification and validation. Output analysis, hypotesis testing for compariong systems, how to find optimal solution with simulation.

1. Law, A.M. and Kelton, D.W., Simulation Modeling and Analysis, 3rd Ed., McGraw-Hill, 2000 2. Kelton, D.W., Sadowski, Randall P., and Sturrock, David T., Simulation with Arena, 3rd Ed., McGraw-Hill, 2003 3. Altiok, Tayfur, and Melamed, Benjamin, Simulation Modeling and Analysis with Arena, Cyber Research, Inc. and Enterprise Technology Solutions, Inc., 2001 4. Robinson, Stewart, Simulation; The Practice of Model Development and Use, John Wiley, 2004 5. Harrell, Ghosh, Bowden, Simulation Using ProModel, McGraw-Hill, 2004






TI0920XX : Pengambilan Keputusan Multi Kriteria TI0920XX : Multi Criteria Decision Making Credits: 2 Semester: Elective

Setelah mengikuti kuliah mahasiswa mampu menjelaskan fenomena -konfliktual keputusan dan memahami konsep "satisfied solution" dalam problem keputusan multikriteria baik untuk variabel keputusan kontinue atau diskrit serta serta mampu menerapkannya untuk proses evaluasi dan analisis pemilihan alternatif dari sistem/problem keputuan riel maupun untuk problem rekayasa. The course aims to provide students with explanation of decision conflicts phenomenon and the concepts of satisfied solution in multi criteria decision for continuous or discrete decision variables as well as to apply those for evaluation process and alternative selection analysis of real problem or hypothetical problem. • • •


• • •


• •

Review konsep optimasi dan teori dasar MCDM Penilaian preferensi dan pengukuran serta teknik pembobotan kriteria dan pengukurannya. Penyelesaian multi obyektif (MOP) dengan pendekatan-

•

•

• • • •

•



TUJUAN

pendekatan tunggal, konsep dan penyelesaian goal programming. Penyelesaian MCDM: pendekatan agregasi total dan diskrit (AHP, struktur dan hirarki problem kompleks, analisa sensitivitas dengan Expert Choice), pendekatan berbasis agregasi parsial (ELECTRE I dan II, konsep outranking, kondisi penilaian concordance dan discordance, analisa sensitivitas), pendekatan PROMETEE I Studi kasus. Preferences assessment and measurement, weighting criteria and measures Multi objective solution with single approach, goal programming concepts and solving methods. Multi criteria decision making approaches: total and discrete aggregation (AHP, complex problems hierarchy and structures, sensitivity analysis with Expert Choice), partial aggregation based approach (ELECTRE I and II, outranking concept, concordance and discordance condition, sensitivity analysis), PROMETEE I approach. Case Studies

• Bana et Costa, C.A (1994), Readings in Multiple Criteria Decision Aid, Springer Verlag, Berlin. • Lawrence, Kenneth.D, Gary R.Reeves and Ronald K.Limberg (2000). Multi Criteria Apllications, Application of Management Science Vol.10, Elsevier Science. • Maystre L.Y., J.Pictet dan J. Simos.(1995) Methode Multicritere ELECTRE, Presses Polytechniques et Universitqires Romandes, Lausanne. • Tabucanon, M.T (1992). Multipile Criteria Decision Making in Industry, Elsevier. • Saaty,T.L. (1994), Fundamental of Decision Making in Priority Theory. RWS Publications. • Sen, Pratyush and Jian-Bo Yang (1998). Multiple Criteria Decision Support in Engineering Design, Springer Verlag, Berlin. • Romero, C (1992). Handbook of Critical Issues in Goal Programming. Pergamon Press, London.

TI0920XX : Proses Stokastik TI0920XX : Stochastic Process Credits: 2 Semester: Elective

PEMBELAJAR AN/ Learning Objectives

Memahami dan mampu membuat model dari sistem yang bersifat probabilistik/stokastik dan teknik-teknik penyelesainnya baik secara algoritmik (manual) maupun dengan bantuan software komputer. To understand and to develop capability on model building of probabilistic/stochastic system as well as using solving methods either algorithmically (manually) or with computer software application.



• • • •

Keterampilan memecahkan masalah Keterampilan memanfaatkan teknologi informasi Ketrampilan analisis Perancang sistem

• • • •

Problem solving skills Proficiency in ICT Analytical skills System designer

• • • • •

Review teori probabilitas dan pengantar proses stokastik Proses Markov Proses difusi Proses Poisson Teori antrian

•

Review on probability theory and introduction to stochastic process Markov process Diffusion process Poisson process Queuing theory

• • • •



TUJUAN PEMBELAJAR

• • •

Mario Lefebvre,Applied Stochastic Processes, springer Ross sheldon, Stochastic Process, Wiley Ross Sheldon, Introduction to probability models, Academic Press

TI0920XX : Manajemen Siklus Hidup Produk TI0920XX : Product Life Cycle Management Credits: 2 Semester: Elective Dalam iklim bisnis dewasa ini, keterlibatan aspek lingkungan dalam membentuk total performance (Triple Botttom Line – TBL)

AN/ Learning Objectives

telah merupakan tuntutan mutlak yang harus direspon secara proaktif oleh pihak industri. Karenanya setiap industri harus mengelola siklus hidup produknya secara komprehensif dan terintegrasi. Mata kuliah ini bertujuan mempelajari berbagai teknik pengelolaan siklus hidup produk secara efisien dan berkelanjutan hingga dapat meminimasi dampak lingkungan dan meningkatkan profitabilitas bisnis. Lima pilar dalam pengelolaan siklus hidup produk (Product Life Cycle Management – PLCM) meliputi Life Cycle Engineering (LCE), Life Cycle Assessment (LCA), Life Cycle Costing (LCC), Product Data Management (PDM), dan Technical Support (TS). Recently, the involvement of environmental aspects in shaping total performance (Triple Bottom Line – TBL) has become an absolute requirement to be responsed proactively by industry. Hence, each industry is required to manage their product life cycle to be comprehensive and integrated. This course aims to discuss about various techniques of managing product life cycle efficiently and in sustainable manner so thay it minimizes environmental effects and improve business profitability. Five pillars in product life cycle management (PLCM) include Life Cycle Engineering (LCE), Life Cycle Assessment (LCA), Life Cycle Costing (LCC), Product Data Management (PDM), and Technical Support (TS). •


• • • • • •


• • • • • • • •

Kemampuan mengakomodasikan isu lingkungan keberlanjutan Perancang sistem Ketrampilan Sintesis, integrasi, dan perancangan Ability to accommodate environmental sustainabilities System designer Synthesizing, integrating, and designing skills

issues

dan

&

Konsep, ruang lingkup, dan strategi sustainable manufacturing. Life Cycle Engineering (LCE) Life Cycle Assessment (LCA) Life Cycle Costing (LCC) Product Data Management (PDM) dan Technical Support (TS). The concepts, scope, and manufacturing. Life Cycle Engineering (LCE) Life Cycle Assessment (LCA) Life Cycle Costing (LCC)

strategy

ofsustainable

•






Product Data Management (PDM) dan Technical Support (TS)

1. Billatos, S.B. and Basaly, N.A. (1997) Green Technology and Design for the Environment, Taylor & Francis 2. Lewis, H. And Gertsakis, J. (2001) Design + Environment, Greenleaf Publishing 3. Fiksel, J. (1997) Design for Environment – Creating EcoEfficient Products andProcesses, McGraw Hill 4. Curran, M.A. (1996) Environmental Life-Cycle Assessment, McGraw-Hill 5. Graedel, T.E. (1998) Streamlined Life Cycle Assessment, Prentice Hall 6. Kennedy, M.L. (1998) Total Cost Assessment for Environmental Engineers andManagers, John Wiley & Sons, Inc. 7. Proceeding of CIRP International Seminar on Life Cycle Engineering, 1994 – 2008

TI0920XX : Optimasi Skala Besar TI0920XX : Large Scale Optimization Credits: 2 Semester: Elective

Mata kuliah ini berorientasi di seputar komputasi dan issue-issue yang berhubungan dengan komputasi dalam hal pengembangan dan penyelesaian model optimasi skala besar. This course is oriented around computation and computationrelated issues in developing and solving large-scale optimization models. • • •


• • •


•

Domain aplikasi termasuk transportasi, economic equilibrium dan pricing. Covering, staffing & cutting stock models, multi-period planning problem, inventory, produksi dan manajemen supply

•

• • • • • • • •


chain Pengambilan keputusan dalam ketidakpastian dan program stokastik. Tehnik dan tool modeling meliputi: linear, network, dan diskrit Metode dekomposisi untuk system skala besar dan optimasi stokastik yang berfokus pada algorithm. Application domains include transportation, and economic equilibrium and pricing. Covering, staffing & cutting stock models, multi-period planning problem, inventory, production and supply chain management. Decision making under uncertainty and stochastic programs Modeling tools and techniques covered include linear, network and discrete Decomposition methods for large scale systems, and stochastic optimization which focus on exact algorithm.

• Bruce A. McCarl, Thomas H. Spreen; Applied Mathematical Programming Using Algebraic Systems, E-book • Bruce A. McCarl,McCarl GAMS User Guide, Presentation Note • Linus Schrage, Optimization Modeling with LINGO, Sixth Edition, • LINDO Systems, Inc., 2006, ISBN: 1-893355-00-4 • Http://ocw.mit.edu/OcwWeb/Sloan-School-of-Management/15094JSpring-2004/CourseHome/index.htm

Program Studi Department Jenjang Pendidikan Programme No.


PROGRAM PASCASARJANA (S3) Doctoral Program

Kode MK Code

Nama Mata Kuliah (MK) Course Title

1

Filsafat Ilmu dan Metodologi Penelitian Science Philosophy and Research Methodology Seminar Bidang Teknik Industri Seminar on Industrial Engineering Kapita Selekta Teknik Industri Advanced Industrial Topics Pilihan Elective Course Penelitian dan Penulisan Disertasi Research and Dissertation Jumlah sks/Total of credits

2 3 4 5

Sks Credits 3 3 3 3 28 40*

*Note: For non IE background, additional 12 credits are required with recommendation from personal Tutor (supervisor).


TI0930XX : Seminar Topik Riset Teknik Industri TI0930XX : Seminar on Industrial Engineering Credits: 3 Semester: I



Tujuan mata kuliah ini adalah untuk mempertajam pemahaman mahasiswa terhadap topik-topik riset terkini dalam bidang ilmu teknik industri yang dipublikasikan dalam jurnal internasional serta mempersiapkan mahasiswa untuk bisa melakukan penelitian mandiri. The course aims to enhance student understanding and awareness of recent Industrial Engineering research topics published in International Journal publishers and to prepare students to conduct their own researches. • • •

Intrapersonal dan kemampuan berkomunikasi Ketrampilan memanfaatkan teknologi informasi Penguasaan bahasa Inggris dan atau bahasa asing lainnya

• •

Intrapersonal and communication skills Proficiency in ICT

•

Berbagai topik riset terbaru pada bidang teknik industri seperti permasalahan penjadwalan produksi, pengendalian kualitas, perancangan jaringan rantai pasok, perawatan dan keandalan sistem produksi, perancangan tata letak fasilitas produksi, aspek energi dan keberlanjutan dalam sistem industri, koordinasi aspek produksi dan pemasaran, metode optimisasi dan heuristk untuk permasalahan industri, dll.


Various recent topics in Industrial Engineering such as production scheduling problems, quality control, supply chain network design, production system maintenance and reliability, facilities planning, energy and sustainability industry, marketing and production coordination, optimization and heuristics for industrial problems, etc. • • • • • •

Journal of Management Science International Journal of Production Research International Journal of Production Economics European Journal of Operational Research IIE Transactions International Journal of Computer Science and Engineering. • And other Journal sources.



TI0930XX : Kapita Selekta Teknik Industri TI0930XX : Advanced Industrial Topics Credits: 3 Semester: I



Proficiency in English and or other language

Tujuan mata kuliah ini adalah untuk memberikan pendalaman terhadap aspek-aspek lanjut dari pengelolaan sistem industri dengan pendekatan yang lebih terintegrasi. The course discusses in depth about advanced aspects of industrial sistem management using integrated approach. • • •

Perancang Sistem Ketrampilan Sintesis, integrasi, dan perancangan Ketrampilan Manajerial

• • •


• • • • •


• • • • • • •


•


Industrial Engineering general framework Conventional Industrial Engineering Design aspects in Industrial Engineering, production system development: MRP vs. JIT, TOC, Lean Manufacturing Sustainable Manufacturing and Supply Chain Management Financial aspects in Industrial Engineering Chopra, S., and Meindl, P. (2007). Supply chain management: Strategy, planning, and operations,3rd Edition. New Jersey - Prentice-Hall. Groover, M. P. (2003). Automation, Production Systems, and Computer Integrated Manufacturing, 3rd Ed., Prentice Hall. Askin, R. G. & Standridge, C. R., (1993). Modeling and Analysis of Manufacturing Systems

TI0930XX : Kebijakan Inovasi dan Teknologi TI0930XX : Optimization Modeling and Solution Credits: 3 Semester: Elective



Kerangka umum Teknik Industri Teknik Industri konvensional Aspek-aspek perancangan dalam Teknik Industri, perkembangan dalam sistem produksi: MRP vs. JIT, TOC, Lean manufacturing Sustainable Manufacturing and Supply Chain Management Aspek finansial dalam Teknik Industri

Tujuan mata kuliah ini adalah memberi wawasan para mahasiswa mengenai bagaimana industri mengembangkan kebijakan untuk pengelolaan teknologi dan inovasi secara berkelanjutan untuk menciptakan keunggulan bersaing di pasar global. The course aims to provide students with knowledge and undertanding of how industry develops its policies in managing technology and innovation continuously to build its own competitiveness in global market. • •

Keterampilan sintesis, integrasi, dan perancangan sistem Keterampilan manajerial

•

Perancang sistem

• • •

Problem solving skills Synthetizing, integrating, and designing skills System designer

• • •

Manajemen teknologi dan inovasi dalam kompetisi global Akuisisi dan alih teknologi Pengelolaan proses inovasi internal dan pengelolaan litbang Pengelolaan pengetahuan untuk penciptaan inovasi Pengembangan produk baru dan adopsi teknologi manufaktur baru Strategi Teknologi Korporasi: Menghubungkan strategi bisnis dan kebijakan teknologi

• • • Pokok Bahasan/ Subject

• • • • • •



Innovation and Technology Management in a global competition Technology transfer and acquisition Managing internal innovation process and Research and Development (R&D) Managing knowledge for innovation building New product development and new manufacturing technology adoption Corporation Technology Strategy: Linking business strategy and technology policies.

N/A

TI0930XX : Pemodelan Optimisasi dan Teknik Solusi TI0930XX : Optimization Modeling and Solution Credits: 3 Semester: Elective


Tujuan mata kuliah ini adalah untuk memberikan kepada mahasiswa teknik-teknik untuk melakukan optimisasi untuk memperoleh solusi optimal ataupun solusi pendekatan dari suatu permasalahan industri yang kompleks. The course aims to provide students with optimization techniques to obtain either optimal solution or solution approach of complex industrial problem.


• • •

Keterampilan sintesis, integrasi, dan perancangan sistem Keterampilan manajerial Perancang sistem

• • •

Problem solving skills Synthetizing, integrating, and designing skills System designer

• •

Konsep pemodelan dan optimasi Programa linier, programa integer, programa non linear, programa multi kriteria Sistem antrian Pendekatan simulasi Beberapa pendekatan metaheuristik

• • •


• • • • •

1. Hillier, F. S. And Lieberman, G. J. (2001). Introduction to Operations Research, 7th Ed., McGraw-Hill. 2. J. Dreo A. Petrowski,P. Siarry E. Taillard, Metaheuristics for Hard Optimization (2006), Methods and Case Studies, Springer



TI0930XX: Pemodelan Rantai Pasok TI0930XX : Supply Chain Modeling Credits: 3 Semester: Elective



Modeling and optimization concept. Linear programming, integer programming, non-linear programming, goal programming. Queuing System Simulation approach Several Metaheuristics approaches.

Tujuan mata kuliah ini adalah untuk memberikan kepada mahasiswa teknik-teknik untuk melakukan pemodelan dari aliran barang, informasi, dan uang di sepanjang rantai pasok dengan tujuan memperoleh pandangan, keputusan, atau kebijakan yang lebih baik dalam pengelolaan rantai pasok. The course aims to provide students with techniques of modeling material, information, and cash flows in a supply chain in for an overview, decision-making, and better policies in a supply chain management. • •

Keterampilan sintesis, integrasi, dan perancangan sistem Keterampilan manajerial

•

Keterampilan memecahkan masalah

• • •

Problem solving skills Synthetizing, integrating, and designing skills Managerial skills

• •

Konsep pemodelan pada rantai pasok Aspek component commonality dan pengembangan produk Konfigurasi jaringan rantai pasok Model persediaan terkoordinasi, model persediaan stokastik, model kontrak pada rantai pasok, model alokasi pesanan, model transportasi dan distribusi

• • Pokok Bahasan/ Subject

• • • •


Introduction to supply chain engineering. Components commonality aspects and product development Supply chain network configuration Coordinated inventory model, stochastic inventory model, contract model in supply chain, order allocation and order splitting model, transportation and distribution model.

1. Chopra, S., and Meindl, P. (2007). Supply chain management: Strategy, planning, and operations, 3rd Edition. New Jersey - Prentice-Hall. 2. Simchi-Levi, D., Kaminski, P., and Simchi-Levi, E. (2000). Designing and managing the supply chain: Concept, strategies, and case studies. Irwin McGraw-Hill. 3. Jurnal-jurnal terbitan terbaru (Management Science, European Journal of Operational Reserch, Computers and Operations Research, Transportation Research Part E)

SILABUS MATA KULIAH TEKNIK INDUSTRI ITS KURIKULUM

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