[Fakultas Teknik Sipil dan Perencanaan] [Faculty of Civil Engineering and Planning]
Program Studi Department Jenjang Pendidikan Programme
PROGRAM STUDI PASCASARJANA JURUSAN TEKNIK SIPIL ITS [Post Graduate Program, Civil Engineering Department, ITS]
[PROGRAM MAGISTER] [Master Program] x
Kompetensi Lulusan
x x x x
Graduate Competence x x x
Memiliki kompetensi sebagai tenaga ahli, sesuai stratanya, pada salah satu bidang: Struktur, Geoteknik, Manajemen Proyek Konstruksi, Manajemen dan Rekayasa Sumber Air, Manajemen dan Rekayasa Transportasi, Manajemen Aset. Mampu melakukan riset dan mengkomunikasikan hasilnya dalam bahasa Indonesia dan bahasa Inggris. Mampu untuk mengembangkan diri secara terus menerus sebagai tenaga ahli sesuai bidangnya. Mampu melanjutkan pendidikan ke strata S3. Students have competency as the experts in one of divisions below: a. Structural Engineering b. Geotechnical Engineering c. Construction Project Management d. Water Resource Engineering and Management e. Transportation Engineering and Management f. Asset Management Students be able to do research and communicate the result in Indonesian and English language Students be able to improve theirself continually to be the expert in their field Students be able to take doctoral program
Transportation Engineering and Management NO.
CODE
COURSE TITLE
CREDITS
SEMESTER 1 1
RC09-2351
Quantitative Methods for Transportation Engineering
3
2
RC09-2352
Transportation System and Planning
3
3
RC09-2353
Traffic Engineering and Management
3
4
RC09-2354
Transport Economic
3
SEMESTER 2 1
RC09-2355
Highway and Pavement Engineering
3
2
RC09-2356
Transportation Modelling
3
3
RC09-2357
Transportation and Intermoda Facilities
2
4
RC09-2398
Research Methods
2
SEMESTER 3 1
RC09-2358
Environmental and Safety Impact for Land Transportation
2
RC09-245()*
Elective Subjects
6
SEMESTER 4 1
RC09-2399
Thesis
6 ELECTIVE SUBJECTS
1
RC09-2451
Mass Transportation System
3
2
RC09-2452
Advance Geometric Design
3
3
RC09-2453
Road Maintenace Management
3
4
RC09-2454
Port Managemet
3
5
RC09-2455
Airport Management
3
MATA KULIAH/ COURSE TITLE
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
KOMPETENSI/ COMPETENCY
[RC 09 -2351]: [Metoda Kuantitatif untuk Rekayasa Transportasi] [RC 09 -2351]: [Quantitative Methods for Transportation Engineering] Credits: [3 sks/ ] Semester: [1] x Mahasiswa mendapatkan bahan untuk keperluan analisa dalam mengerjakan penelitian yang dilakukan di dalam Tesis yang akan dikerjakan. x Students get basic knowledge for research analysis in a thesis x Mahasiswa mampu melakukan pengumpulan data menganalisa dan menyimpulkannya sesuai dengan kebutuhan penelitian yang akan dilakukan. x Students have an ability to collect, analysis, and resume the data as needed in research
POKOK BAHASAN/ SUBJECTS
x x x x x x x x x x x x
Kebutuhan data Teori sampling Analisa deskriptif Probabilitas dan distribusi probabilitas Simulasi dasar Teori Graph Lintasan Terpendek Pemrograman linear Optimasi Transhipment Statistik inferensi Analisa multi criteria Peramalan
x x x x
Data requirement Sampling theory Descriptive analysis Probability and probability distribution
x x x x x x x x x PUSTAKA UTAMA/ REFERENCES
MATA KULIAH/ COURSE TITLE
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
KOMPETENSI/ COMPETENCY
POKOK BAHASAN/ SUBJECTS
Basic simulation Graph theory Shortest path Linear programming Transhipment optimation Inferntion statistic Multi criteria analysis Forecasting Taha, Hamdy A. (1992); Operation Research – An Introduction; Fifth Edition; MacMillan Publishing Company; New York., Hillier, FS & Lieberman, G.J. (1990); Introduction to Operation Research; Fifth Edition; McGraw-Hill; New York. Bahttacharya G and RA Johnson (1997), Statistical Concept and Methods, John wiley and Sons, Supranto J (….), Analisis Multivariat; Law, A.M. and Kelton, W.D. (1991) Simulation Modeling & Analysis.
[RC 09 -2352]: [Sistem dan Perencanaan Transportasi] [RC 09 -2352]: [Transportation System and Planning] Credits: [3 sks/ ] Semester: [1] x Mahasiswa mampu merencanakan jaringan transportasi kota dan wilayah dengan mempertimbangkan aspekaspek sustainable development. x Students have capability in planning the urban and regional transportation network regarding sustainable development issues x Mampu melakukan perencanaan jaringan transportasi perkotaan. Mampu melakukan perencanaan jaringan transportasi wilayah. Mampu menjelaskan konsep sustainable development dalam bidang transportasi x Capable to plan urban transportation network x Capable to plan regional transportation network x Capable to explain sustainable development issues in transportation x x x x x x x x x x
Konsep hubungan demand dan supply transportasi Konsep kota, suburb dan wilayah Konsep pembangunan berkelanjutan Hirarki jaringan transportasi Jaringan jalan kota metropolitan Jaringan jalan raya dan jalan kereta api regional Jaringan rute angkutan umum Jaringan penerbangan dan pelayaran Jaringan dan manajemen transportasi barang Analisa kinerja jaringan
PUSTAKA UTAMA/ REFERENCES
MATA KULIAH/ COURSE TITLE
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
KOMPETENSI/ COMPETENCY
POKOK BAHASAN/
x x x x x x
Analisa hinterland Analisa lokasi strategis Kompetisi antar moda, rute dan wilayah Sistem zona dalam perencanaan transportasi Dasar peramalan demand Konsep pembatasan demand
x x x x x x x x x x x x x x x x x x x
Demand and supply interaction concept City, suburb and regional concept Sustainable development concept Transportation network hierarchy Metropolitan area road network Regional highway and railway network Public transport route network Airline and ship network Goods transportation network and management Network performance analysis Hinterland analysis Strategic location analysis Competition between modes, routes and regions Zoning system in transportation planning Demand forecasting basic Demand restriction concept Black, J. (1981) Urban Transportation Planning, Dickey (1975) Metropolitan Transportation Planning. Taaffe, et al (1985) Geopraphy of Transportation.
[RC 09 -2353]: [Rekayasa dan Manajemen Lalulintas] [RC 09 -2353]: [Traffic Engineering and Management] Credits: [3 sks/ ] Semester: [1] x Mahasiswa mampu merencanakan sistem pengaturan simpang dan manajemen lalulintas untuk kawasan terbatas. x Students have capability in planning intersection system and limited area traffic management x Mampu melakukan perencanaan sistem pengaturan simpang x Mampu melakukan perencanaan manajemen lalulintas untuk kawasan terbatas x x x x
Capable in planning intersection system Capable in planning local area traffic management Review kinerja simpang Review kinerja bundaran
SUBJECTS
x x x x x x
Koordinasi beberapa persimpangan bersinyal Manajemen lalulintas kawasan terbatas Konsep antrian di jalan raya dan gerbang tol Manajemen lalulintas saat insiden atau perbaikan jalan Manajemen lalulintas untuk kendaraan berat Manajemen pembatasan kecepatan di jalan lokal/lingkungan x Manajemen pemakaian ruang jalan x x x x x x x x
PUSTAKA UTAMA/ REFERENCES
x x x x
Review of intersection performance Review of roundabout performance Coordination of signalized intersections Limited area traffic management Queueing concept at highway and toll gate Traffic management in the incidence and road maintenance Heavy vehicle traffic management Speed reduction management for local/ neighborhood street Road space management DJBM (1984) Manual Kapasitas Jalan Indonesia. Khisty, C.J. and Lall, B.K. (2005) Dasar-dasar Rekayasa Transportasi Jilid 1 dan 2. Terjemahan Bahasa Indonesia oleh Miro, F. Penerbit Airlangga. May, A.D. (1990.) Traffic Flow Fundamentals
MATA KULIAH/ COURSE TITLE
[RC 09 -2354]: [Ekonomi Transportasi] [RC 09 -2354]: [Transportation Economics] Credits: [3 sks/ ] Semester: [1]
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
x Pemahanan tentang manfaat pembangunan, pemeliharaan, and peningkatan infrastruktur transportasi serta perhitungan kajian kelayakannya x Understanding of the benefit of transportation infrastructure development, maintenance and betterment, and calculating its feasibility study.
KOMPETENSI/ COMPETENCY
x Mahasiswa mampu mengidentifikasi dan menghitung manfaat-manfaat adanya pembangunan, peningkatan dan pemeliharaan infrastruktur transportasi serta melakukan kajian kelayakan pembangunan, peningkatan, dan pemeliharaan infrastruktur transportasi yang meliputi jalan raya, pelabuhan, bandara dan terminal. x Student have ability to identify the benefit and calculate the feasibility of transportation infrastructure
development, betterment and maintenance.
POKOK BAHASAN/ SUBJECTS
x x x x x x x x x x x
Siklus proyek infrastruktur Komponen biaya dan manfaat Cash flow dan nilai ekivalensi uang Alat ukur kelayakan (BOK, NPV, IRR, FYRR, BEP, PbP) Konsep kelayakan ekonomi dan kelayakan finansial Generalized cost (nilai waktu, biaya kecelakaan, BOK) Konsep penghematan Kajian proyek terminal Kajian proyek pelabuhan Kajian proyek bandara Kajian proyek jalan
x x x x x
Transportation infrastructure life cycle Cost and benefit components Cash flow and currency equivalency value Feasibility measurement (BOK, NPV, IRR, FYRR, BEP, PbP) Generalized cost (value of time, accident cost, vehicle operation cost) Benefit concept Terminal project feasibility Port project feasibility Airport project feasibility Road project feasibility Oglesby CH, RG Hicks (1982) Highway Engineering, fourth edition, John Wiley and Sons Inc. OZ Tamin (2002) Perencanaan dan Pemodelan Transportasi. Grant EL, WG Ireson, RS Leaventworth (2002) Dasar-Dasar Ekonomi Teknik, Rineka Cipta. DeGarno EP, WG. Sullvan, JR Canada (1984), Engineering Economy, seventh edition, Macmillan Publishing Company, New York, Bruun P.(1990) Port Enginnering, fourth edition, Gulf Publishing Company. Horonjeff, R and FX MacKelvey, (1983) Planning and Design of Airports, Third edition, McGrawHill Inc.
x x x x x x
PUSTAKA UTAMA/ REFERENCES
MATA KULIAH/ COURSE TITLE
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES KOMPETENSI/
[RC 09 -2353]: [Rekayasan Jalan Raya dan Perkerasan] [RC 09 -2353]: [Highway and Pavement Engineering] Credits: [3 sks/ ] Semester: [2] x x
Mahasiswa mampu merencanakan geometrik jalan, tebal perkerasan jalan dan campuran perkerasan jalan aspal.
Students to have capability in designing highway geometrics, pavement thickness, and mix-design of asphalt concrete. Mahasiswa mampu untuk:
COMPETENCY
x x x
merencanakan bagian-bagian geometrik jalan, merencanakan tebal perkerasan jalan, dan merencanakan campuran beton aspal yang bermutu.
Students are capable of: designing parts of highway geometrics, x x designing highway pavement thickness, and x prescribing quality mix-design for asphalt concrete. x x x x x x x x x POKOK BAHASAN/ MAIN SUBJECTS
x x x x x x x x x x x
PUSTAKA UTAMA/ REFERENCES
x x x x x
Parameter perencanaan geometrik jalan. Prinsip dasar perencanaan geometrik. Jenis lapisan perkerasan jalan dan persyaratan untuk perencanaan lapisan perkerasan jalan. Prinsip dasar perhitungan untuk perencanaan tebal perkerasan lentur dan kaku. Persyaratan untuk material agregat perkerasan jalan dan pengujiannya (di laboratorium). Metoda pencampuran agregat (blending of aggregates). Persyaratan untuk bahan bitumen/aspal dan pengujiannya (di laboratorium). Persyaratan untuk campuran beton aspal. Perencanaan campuran untuk beton aspal dan pengujiannya (di laboratorium). Parameters in designing highway geometrics. Basic principles of designing highway geometrics. Types of pavement layers and specifications for designing pavement layers. Basic principles in calculations for pavement thickness design. Specifications for aggregate materials of pavements and their tests (in laboratory). Methods of blending of aggregates. Specifications for bitumen/asphalt materials of pavements and their tests (in laboratory). Specifications for asphalt concrete mixtures. Design of asphalt concrete mixtures (mix-design) including their tests (in laboratory) AASHTO, 2004, Geometric Design of Highways and Street. AASHTO, 1972, Interim Guide for Design of Pavement Structures. Asphalt Institute Bina Marga, "Perencanaan Geometrik Jalan Luar Kota", 1997 Bina Marga, SKBI, Petunjuk Perencanaan Perkerasan Kaku (Rigid Pavement), 1986. Sukirman, Silvia, Dasar-dasar Perencanaan Geometrik Jalan Raya". Bina Marga, 1987, Perencanaan Tebal Perkerasan Jalan
x x
MATA KULIAH/ COURSE TITLE
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
KOMPETENSI/ COMPETENCY
Lentur Berdasarkan Analis Komponen. Sosialisasi Undang-undang No. 38, 2004 Tentang Jalan. Undang-undang No. 38, 2004 Tentang Jalan.
[RC 09 -2356]: [Pemodelan Transportasi] [RC 09 -2356]: [Transportation Modelling] Credits: [3 sks/ ] Semester: [2] x Mahasiswa mampu melakukan dan mengaplikasikan pemodelan dalam rangka forecasting demand transportasi. x Students have capability in transportation modeling and in using it to forecast transportation demand x Mampu melakukan dan mengaplikasikan: pemodelan bangkitan perjalanan, pemodelan distribusi perjalanan, pemodelan pemilihan moda, pemodelan pemilihan rute, dan pemodelan antrian. x Capable in modeling and applying trip generation, trip distribution, modal split, trip assignment and queuing.
POKOK BAHASAN/ SUBJECTS
x x x x x x x x x x x
Pemodelan bangkitan dan tarikan perjalanan Pemodelan distribusi perjalanan Pemodelan pemilihan moda Pemodelanhubungan volume dan kecepatan Pemodelan pemilihan rute Pemodelan hubungan land-use dan transport Pemodelan disaggregate Pemodelan kombinasi distribusi-pemilihan rute Pemodelan nilai waktu Pemodelan antrian Aplikasi model dalam peramalan demand
x x x x x x x x x x
Trip generation modelling Trip distribution modelling Modal split modelling Speed-flow modelling Trip assignment modelling Land-use – transport modelling Disaggregate modelling Combined of trip distribution-assignment modelling Value of time modelling Queuing modelling
x Applying the model in demand forecasting
PUSTAKA UTAMA/ REFERENCES
MATA KULIAH/ COURSE TITLE
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
KOMPETENSI/ COMPETENCY
POKOK BAHASAN/ SUBJECTS
x Black, J. (1981) Urban Transportation Planning. Dickey (1975) Metropolitan Transportation Planning. Taaffe, et al (1985) Geopraphy of Transportation. Ortuzar and Willumsen (1994) Modelling Transport. Tamin (2000) Perencanaan dan Pemodelan Transportasi. May, A.D. (…) Traffic Flow Fundamentas. Khisty (..) Traffic Engineering
[RC 09 -2357]: [Fasilitas Transportasi dan Perpindahan Moda] [RC 09 -2357]: [Transportation and Intermodal Facilities] Credits: [2 sks/ ] Semester: [2] x Membekali mahasiswa tentang fasilitas-fasilitas transportasi apa saja yang dibutuhkan dan data apa saja yang dibutuhkan untuk merencana dan mengevaluasinya. x Give the students about the transportation facilities needed and the data requirement for planning and analysis. x Mampu merencanakan dan mengevaluasi transportasi darat, laut, udara beserta perpindahan modanya.
fasilitas fasilitas
x Able to plan and to evaluate facilities for land, air and water transportation as well as its intermodal facilities
x x x x x x x x x x x
Jalur pedestrian/pedestrian mall Jalur sepeda Penyeberangan pedestrian Toll booth Tempat parkir dan park and ride Terminal barang, gudang dan open storage Transmoda dan Intermoda Container terminal dan dry port Terminal bus dan stasiun kereta api Terminal bandara Fasilitas pelabuhan laut, sungai dan penyeberangan
x x x x x
Pedestrian way and pedestrian mall Bicycle path Toll booth Pedestrian crossing Vehicle park and park-and-ride
x Goods transportation terminal, warehouse and open storage x Transmode and intermode x Container terminal and dry port x Passenger bus terminal and train station x Passenger terminal in airport x Port facilities for sea transportation, waterway and ferry
PUSTAKA UTAMA/ REFERENCES
MATA KULIAH/ COURSE TITLE
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
KOMPETENSI/ COMPETENCY
x Abubakar, I. , et al. (1995) Menuju Lalu Lintas dan Angkutan Jalan yang Tertib. Direktorat Jenderal Perhubungan Darat. x Bruun P.(1990) Port Enginnering, fourth edition, Gulf Publishing Company., x Grava S (2002) Urban Transport Systems, Choices for Communities, MacGraw Hill Inc New York. x Horonjeff, R and FX MacKelvey, (1983) Planning and Design of Airports, Third edition, McGrawHill Inc. x Mahoney (……..) Intermodal Transportation x Vuchic V. (1981) Public Transport System and Technology, x SNI terkait.
[RC 09 -2358]: [Dampak Lingkungan dan Keselamatan Transportasi Darat] [RC 09 -2353]: [Environmental Impact and Safety for Land Transportation] Credits: [2 sks/ ] Semester: [1] x Mahasiswa mampu menganalisa potensi-potensi dampak yang timbul di jalan raya akibat pembangunan bangunan pembangkit lalulintas. x Mahasiswa mampu mengaduit, mengidentifikasi typetype kecelakaan beserta analisa terkait. x Students have capability in analyzing environmental impact on highway caused by development of new traffic generator x Students have capability in auditing and identifying road accidents and related analyze x Mampu menganalisa potensi-potensi dampak yang timbul di jalan raya akibat pembangunan bangunan pembangkit lalulintas mengaduit, mengidentifikasi type-type x Mampu kecelakaan beserta analisa terkait. x Capable in analyzing environmental impact on highway caused by development of new traffic generator. x Capable in auditing and identifying road accidents and
POKOK BAHASAN/ SUBJECTS
PUSTAKA UTAMA/ REFERENCES
MATA KULIAH/ COURSE TITLE TTUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
KOMPETENSI/ COMPETENCY
POKOK
x x x x x x x x x x x x x x x x x x x x x x x
related analyze Dampak lingkungan terkait dengan lalulintas jalan raya Stud-studi dampak lingkungan Pembukaan traffic generator baru dan dampaknya Dampak lalulintas dari pelabuhan Dampak lalulintas dari bandara Kecelakaan lalu lintas Analisa kecelakaan dan black spot Kecelakaan kereta api Audit kecelakaan
Environmental impact related to roadway traffic Environmental impact studies Opening of new traffic generator and its traffic impact Traffic impact of new port Traffic impact of new airport Traffic accident Accident analysis and black spot Train accident Accident audit Oglesby, C. H (1993) Khisty, C. J (2003) Toward Safe Road in Developing Countries MKJI
[RC09-2398]: [Metodologi Penelitian] [RC09-2398]: [Methodology of Research] Credits: [ 2 sks/ ] Semester: [II] Tujuan Pembelajaran (Bhs. Indonesia) Tujuan Pembelajaran (Bhs. Ingris)
x Mahasiswa mampu untuk menyusun Proposal Penelitian untuk Thesisnya dan dapat menerangkan cara menyusun Laporan Penelitian dan cara menulis makalah ilmiah untuk Prosiding Seminar dan Jurnal x Students are able to prepare Research Proposal for their Thesis, and able to explain methods to prepare their Thesis/Research Report and methods to write papers for Proceedings and Journals. x Analisa GAP utk mencari Permasalahan Penelitian
BAHASAN/ MAIN SUBJECTS
PUSTAKA UTAMA/ REFERENCES
MATA KULIAH/ COURSE TITLE
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
KOMPETENSI/ COMPETENCY
POKOK BAHASAN/ SUBJECTS
x x x x x x x x x
Format Proposal Penelitian dan Format Laporan Penelitian Pendahuluan dari Proposal Penelitian/ Proposal Thesis Tinjauan Pustaka Metodologi Penelitian Analisa dan Kesimpulan Penelitian Daftar Acuan dan Daftar Pustaka Jadwal dan Usulan Biaya Penelitian Komposisi untuk Penulisan Ilmiah Penulisan untuk Makalah (Prosiding Seminar dan Jurnal)
x x x x x x x x x x x
Gap Analysis to determine Research Problems Formats of Research Proposals and Research Reports Writing Introduction of Research/Thesis Proposals Literatures Review Research Methodology Analyses and Conclusions of Research List of References and Bibliographies. Schedule and Budget Proposal of Research Composition for Scientific Writings Writing of papers for Proceedings and Journals. Pustaka Utama
[RC 09 -2451]: [Sistem Transportasi Massal] [RC 09 -2451]: [Mass Transit System] Credits: [3 sks/ ] Semester: [3-Elective] x Mahasiswa mampu merencanakan jaringan rute dan jenis moda transportasi massal sesuai demand penumpang. x Students have capability in planning route network and mode of mass transit as needed by passenger demand x Mampu melakukan perencanaan jaringan rute dan jenis moda transportasi massal x Capable in planning route network and mode of mass transit x Peran sistem transportasi masal x Kapasitas sistem transportasi masal x Perencanaan moda x Perencanaan jalur transportasi masal x Perencanaan lokasi pemberhentian dan fasilitas pendukungnya x Aplikasi transit mall, jalur khusus dan perlakuan khusus
untuk transportasi massal x Manajemen sistem boarding alighting, ticketing, dan sistem informasi x Pembagian peran pemerintah dan swasta x Manajemen sistem kelembagaan, peraturan ketenagakerjaan dan arus dana x Manajemen jaringan dan pembatasan demand untuk support transportasi masal x x x x x x x x x x x x x x PUSTAKA UTAMA/ REFERENCES
x x
The role of mass transit system Capacity of mass transit system Mode planning Mass transit route network planning Planning of station or stop and its supporting facilities Applying of transit mall, reserved transitway, and preferential treatment for mass transit Management of boarding-alighting, ticketing and information system Share of government and private stakeholder Management of institution, labor regulation and revenue-subsidiary system Network management and demand restriction for mass transit support Vuchic, V.R. (1981) Urban Public Transit System and Technology Giannopoulos, G.A. (1989) Bus Planning and Operation in Urban Areas: A Practical Guide. Hall, P and Hass-Clau, K. (1985) Can Rail Save the City Boyd, J.H. et al (1973) Evaluation of Rail Rapid Transit & Express Bus Service in the Urban Commuter Market. Institute for Defense Analysis - Program Analyses Division for U.S. Department of Transportation NATO CCMS (1976) Bus Priority Systems. Transport and Road Research Laboratory - Department of the Environment Cresswell, R. (1979) Urban Planning and Public Transport.
MATA KULIAH/ COURSE TITLE
[RC 09 -2452]: [Perencanaan Geometrik Lanjut] [RC 09 -2452]: [Advanced Geometric Design] Credits: [3 sks/ ] Semester: [3-Elective]
TUJUAN PEMBELAJARAN/
x Mahasiswa mampu merencanakan geometrik jalan luar kota dan dalam kota dengan memperhatikan kondisi
LEARNING OBJECTIVES
KOMPETENSI/ COMPETENCY
POKOK BAHASAN/ MAIN SUBJECTS
lingkungan di daerah perencanaan. x Students to have capability in performing geometric design of rural and urban highways with consideration of local environment. x Mampu melakukan perencanaan jalan luar kota dan jalan dalam kota; meliputi persimpangan sebidang dan tak sebidang. x Mampu menentukan titik-titik penting pada lengkung horisontal dan vertikal. x Mampu menghitung volume pekerjaan jalan x Mampu menjelaskan kendala-kendala lingkungan dalam pembangunan jalan di luar dan di dalam kota, sehubungan dengan konsep pembangunan berkelanjutan. x Students are able to perform geometric design of rural and urban highways, including design of at-grade intersections and multi-level interchanges. x Students are able to perform stake out on horizontal and vertical alignment. x Students are able to calculate volume of work and bill of quantity of a highway project. x Students are able to describe environmental constraints on designing highways in rural and urban areas, related to the concept of sustainable development. x Prinsip dasar ilmu geodesi yang digunakan. x Perencanaan trase jalan x Perencanaan geometrik jalan x Perencanaan geometrik pada persimpanagn dan interchange x Penggambaran Plan and Profile Jalan. x Penentuan titik as tikungan di lapangan (stake out) x Perhitungan volume galian dan timbunan x Hambatan pandangan samping x Geometrik persimpangan, U-turn, dan jalur perlambatan/ percepatan x Persyaratan lingkungan untuk pembangunan jalan berkelanjutan x x x x x x x x x
Basic principles of geodetic engineering used for design. Route planning Geometric design of highways. Geometric design in intersections and interchanges. Methods of drawing for highway plan and profile. Methods of staking-out of highways in curves and turns. Volume calculation of cut and fill Side restriction in sight distance Geometric design of intersection, U-turn, deceleration and acceleration lanes. x Environmental constraints in the design of sustainable highway.
PUSTAKA UTAMA/ REFERENCES
x AASHTO, "Geometric Design of Highways and Street", 2004. x Bina Marga, "Perencanaan Geometrik Jalan Luar Kota", 1997 x Bina Marga, SKBI, “Petunjuk Perencanaan Perkerasan Kaku (Rigid Pavement)”, 1986. x Geometric Design Manual for Throughway x Hickerson, T.F. (1964) Route Location and Design x Sukirman, Silvia, "Dasar-dasar Perencanaan Geometrik Jalan Raya". x Sosialisasi Undang-undang No. 38, 2004 Tentang Jalan. x Undang-undang No. 38, 2004 Tentang Jalan. x Prinsip: Planning for Sustainable Development in Highway Design.
[RC 09 -2453]: [Manajemen Kerusakan Jalan] [RC 09 -2453]: [Highway Maintenance] MATA KULIAH/ COURSE TITLE
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
KOMPETENSI/ COMPETENCY
Credits: [3 sks/ ] Semester: [3-Elective] x Mahasiswa memahami cara melakukan perawatan perkerasan jalan raya sehingga jalan tetap dapat berfungsi sesuai harapan, mengetahui cara perbaikan jalan yang rusak berdasarkan penyebabnya, dan memahami prosedur serta organisasi pemeliharaan jalan yang ada di Indonesia. x Students are to comprehend methods for highway pavement maintenance to keep highways functioning as expected, to acknowledge methods to repair damaged roads based on their causes, and to comprehend the procedure and organization to perform highway and road maintenance in Indonesia. x Mahasiswa dapat menyebutkan jenis-jenis kerusakan pada perkerasan jalan dan penyebabnya. x Mahasiswa dapat melakukan evaluasi pada perkerasan jalan di lapangan dan kemudian menentukan metoda perawatan /penanganan jalan yang paling tepat. x Mahasiswa dapat menyebutkan cara melakukan perbaikan untuk kerusakan pada badan jalan lainnya dengan metoda yang terkini (mutakhir). x Mahasiswa dapat menyebutkan cara-cara dan program perawatan jalan yang berlaku di Indonesia, beserta organisasinya yang terkait,
POKOK BAHASAN/ MAIN SUBJECTS
x Students are able to determine types of highway pavement damages and the causes. x Students are able to perform field evaluation on pavement damages and to determine the most appropriate method of repair/maintenance. x Students are able to determine methods of repairs for other types of damages in road embankment using recent technology. x Students are able to describe methods and programs of the prevailing highway and road maintenance in Indonesia, including types of organization involved. x Jenis kerusakan pada perkerasan jalan dan penyebabnya, untuk perkerasan jalan aspal dan perkerasan beton semen. x Metode evaluasi perkerasan jalan cara Bina Marga dan cara lainnya. x Metode evaluasi untuk penentuan prioritas penanganan jalan. x Perencanaan lapis-ulang perkerasan jalan dengan cara Benkelmen Beam x Catatan khusus untuk penyebab kerusakan-dini pada perkerasan jalan di Indonesia. x Masalah umum kerusakan jalan akibat tanah dasar: masalah pembangunan jalan di atas tanah lunak, dan masalah jalan di atas tanah dengan kembang-susut yang besar. x Masalah stabilitas badan jalan lainnya. x Penggunaan bahan geosintetis dan teknologi baru pada upaya penangulangan masalah jalan. x Program Maintenance yang ada x Program perawatan rutin, peningkatan, dan rehabilitasi. x Spesifikasi dan Metoda pelaksanaan perawatan jalan di Indonesia x Aspek manajemen pada pemilihan pelaksana pekerjaan perawatan, dikontrakkan atau swakelola. x UPT (Unit Pelaksana Teknis) dan UPR (Unit Pemeliharaan Rutin) sebagai organisasi penyelenggara pemeliharaan jalan pada PU. Binamarga di Indonesia. x Aspek manajemen perawatan jalan lainnya. x Types of pavement damages and their causes, for asphaltic concrete and cement concrete pavements. x Methods of pavement evaluation using Bina Marga’s and other ways. x Methods of pavement evaluation for determining priority in pavement maintenance. x Design of pavement overlay using the Bengkelmen Beam method. x Special notes in the causes of premature deterioration of highway pavements in Indonesia x General problems of roads related to ground conditions:
x x x x x x x x x x x PUSTAKA UTAMA/ REFERENCES
x x
x
MATA KULIAH/ COURSE TITLE
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
KOMPETENSI/ COMPETENCY
problems of construction of roads on soft gound, and problems of road due to swelling soils. Other stability problems of road embankments. The use of geosynthetics materials and other recent technology to solve roads problems. Existing Road Maintenance Programs. Routine maintenance, betterment, and rehabilitation program of highways. Specifications and methods of application for road maintenance in Indonesia. Management aspects in selecting maintenance applicator: to be contracted or self-performed. Units of Maintenance for highways in PU Binamarga, Indonesia Other management aspects of highway maintenance. Bina Marga, 1983, Manual Pemeliharaan Jalan, Jilid IA: Perawatan Jalan, Departemen Pekerjaan Umum, Jakarta Bina Marga, 1990, Panduan Penentuan Klasifikasi Fungsi Jalan di Wilayah Perkotaan, No. 018/T/BNKT/1990, Departemen Pekerjaan Umum, Jakarta Bina Marga, 1990, Tata Cara Penyusunan Program Pemeliharaan Jalan Kota, No. 018/T/BNKT/1990, Departemen Pekerjaan Umum, Jakarta Bina Marga, 1995, Biaya Operasi Kendaraan (BOK) untuk Jalan Perkotaan di Indonesia, Departemen Pekerjaan Umum, Jakarta Dirgolaksono, P. dan I.B. Mochtar, 1990, Studi Penyempurnaan Metode Penilaian Kerusakan Jalan Berdasarkan Evaluasi Visual untuk Kondisi Kerusakan Jalan di Indonesia, Tugas Akhir, FTSP-ITS, Surabaya AASHTO,”Interim Guide for Design of Pavement Structures”, 1972
[RC 09 -2454]: [Manajemen Pelabuhan] [RC 09 -2454]: [Port Management] Credits: [3 sks/ ] Semester: [2] x Mahasiswa mampu menganalisa kelayakan dan
merencanakan masterplan pembangunan pelabuhan petikemas. x Student have capability in analysing feasibility and masterplan of container terminal. x Mampu
menjelaskan fasilitas-fasilitas yang seharusnya dimiliki oleh pelabuhan petikemas, mampu menentukan rencana lokasi pembangunan pelabuhan petikemas, mampu
melakukan perencanaan dermaga petikemas, menghitung kebutuhan lapangan penumpukan (container yard) dan gudang (container freight station), mampu menjelaskan tentang stakeholder bisnis petikemas dan keberadaan depo petikemas. Mampu merencanakan kebutuhan ruang parkir untuk truk pengangkut petikemas. Mampu menghitung kinerja pelayanan dermaga, lapangan penumpukan dan gudang di pelabuhan petikemas. Mampu menghitung kelayakan pembangunan pelabuhan petikemas. x Capable in describing facilities of the container terminal, capable in determining the location of container terminal, capable in designing wharf, capable in calculating container yard area and container freight station area, capable in explaining the business stakeholders and the presence of container depot. Capable in planning parking space requirements for container trucks. Capable in calculating the service performance of the dock, container yard and container freight station.
POKOK BAHASAN/ SUBJECTS
x x x x x x x x x x x
Fasilitas pelabuhan petikemas Sisi perairan pelabuhan petkemas Penentuan lokasi pelabuhan petikemas Sisi darat pelabuhan petikemas Dermaga petikemas Container yard dan perkerasannya Container freight station Depo dan bisnis terkait petikemas Parkir dan sirkulasi kendaraan Kinerja pelabuhan petikemas Kelayakan pelabuhan petikemas
x x x x x x x x x x x
Container port facilities Waterside Location Landside Berth CY CFS Depo and business related to container Park and circulation Performance Feasibility
PUSTAKA UTAMA/ REFERENCES
MATA KULIAH/ COURSE TITLE
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES
KOMPETENSI/ COMPETENCY
x Bruun P.(1990) Port Enginnering, fourth edition, Gulf Publishing Company., x Quinn (......) Design and Construction of Port and Marine Structure x US Army (1984) Shore Protection Manual (1 and 2)
[RC 09 -2455]: [Manajemen Airport] [RC 09 -2455]: [Airport Management] Credits: [3 sks/ ] Semester: [2] x Mahasiswa mampu merencanakan bandara udara beserta fasilitasnya termasuk memodelkan kebutuhan sisi darat berdasar demand yang ada. x Students have capability in planning airport and its facilities including land-side based on demand x mampu merencanakan bandara udara beserta fasilitasnya termasuk memodelkan kebutuhan sisi darat berdasar demand yang ada. . x Capable in planning airport and its facilities including land-side based on demand
x x x x x x
POKOK BAHASAN/ SUBJECTS
Sisi udara bandara Sisi darat bandara Terminal Arus penumpang bandara Antrian penumpang Perhitungan luas fasilitas: chek in, boarding, bagasi, transit x Arus bagasi x Lay-out bandara x Keterpaduan intermoda dan transmoda x x x x x x x x
Airside of the airport Landside of the airport Passenger terminal Passenger flow Passenger queue Area needed for chek-in, boarding, luggage and transit Lugage flow Lay-out of airport
x Intermoda and transmoda integration
PUSTAKA UTAMA/ REFERENCES
x Oglesby, C. H (1993) x Horonjeff, R (1994) x Ashford, N (1984) x Tamin, O (2003)
