SATUAN ACARA PERKULIAHAN REKAYASA SISTEM DAN STRATEGI AGROINDUSTRI
Oleh :
Prof. Dr. Ir. Marimin, MSc Prof. Dr. Ir. Eriyatno, MSAE Prof. Dr. Ir. M. Syamsul Ma’arif, M. Eng Prof. Dr. Ir. Sukardi, MM
PROGRAM STUDI PASCASARJANA DEPARTEMEN TEKNOLOGI INDUSTRI PERTANIAN FAKULTAS TEKNOLOGI PERTANIAN INSTITUT PERTANIAN BOGOR 2016
Course Syllabus Systems Engineering and Agroindustry Strategy Course title Course code: TIN715 Coordinator’s name
Main reference (Title, author, year) (maximum 3 references) Additional reference (Supplemental materials) Brief description
Prerequisite Course outcome
Systems Engineering and Agroindustry Strategy Credits: Semester: Compulsory/optional: 2(2-0) 1 Compulsory Prof. Dr. Ir. Marimin, Instructor’s Prof. Dr. Ir. Eriyatno, MSc name MSAE Prof. Dr. Ir. M. Syamsul Ma’arif, M. Eng Prof. Dr. Ir. Sukardi, MM 1. Newman G Donald, Eschenbach G Ted, and Lavelle P Jerome. 2012. Engineering Economic Analysis. Oxford University Press, Inc 2. Fraser M Niall and Jewkes M Elizabeth. 2013. Engineering Economics: Financial Decision Making for Engineers. Pearson Canada Inc 1. Lluis M. 2015. Handbook of Operations Research in Agriculture and the Agri-Food Industry. Springer Science and Business Media, LLC
Frontier progresses in system thinking Frontier progresses in soft and hard system methodology Frontier progresses in strategic management content and methods Frontier progress/advance application of system engineering for process and bioprocess and environmental management A. Able to explain the concept of system engineering as a bridge between the needs of the technical and engineering capabilities; B. Able to explain the relationship between the system engineering, environmental, and agroindustry sustainability C. Able to explain the concept, and able to identify potential applications and development industrial system, principles of system engineering, and computational intelligence systems on agroindustry D. Able to explain and apply the principles and design process and apply them in the development of engineering systems, engineering, agroindustry strategy, and innovation in design, operation and development of agroindustry E. Able to assessment the development and application of computational strategy innovative technology (bioplastics, new and renewable energy, bioplastics, bio pesticides, bio pesticide, biodegradable materials, computational strategy innovative chemicals, nanomaterials, etc.), and identify potential development and application F. Understand the concept and able to apply new formulation tools, modeling and application of agroindustry strategy G. Able to synthesize the state of the arts systems engineering field and agro-industry strategy on process problems and bioprocess and
Offered to Topics to be covered
Percentage
Activity, contact hours (hour/week) Assessment
environmental issues of sustainability in industry Study Program of Agroindustrial Technology-IPB and other study programs as elective course 1. Systems engineering concept, relations process of identifying needs and agroindustry education, human resources, and profession of agroindustry technology 2. Development concept industrial system, principles of system engineering, and computational intelligence systems on agroindustry 3. Principles and process engineering design systems, engineering, agroindustry strategy, and innovation in design 4. Development assessment and application of innovative computational technology strategy 5. The concept and implementation techniques in the new formulation tools, modeling and application of agroindustry strategy 6. The evaluation of systems engineering application impact in industry environmental and sustainability issues Knowledge 45 % Facility/media x White board Skill 40 % x LCD projector Attitude 15 % x Computer Lecture 2 hours/week Wifi Lab work x Sound system Tutorial Courseware Others Other: …. Assignment 30 % (paper) Examination 70 % (mid and final exams) Quiz -
JADWAL DAN MATERI PERKULIAHAN Week 1.
2. 3. 4.
Learning Outcomes Mampu menjelaskan konsep rekayasa sistem (System engineering) sebagai jembatan antara kebutuhan teknis dan kapabilitas perekayasaan; (2) Mampu menjelaskan hubungan antara rekayasa sistem, lingkungan, dan keberlanjutan agroindustri Mampu menjelaskan konsep, dan mampu mengidentifikasi potensi aplikasi dan pengembangan “industrial system”; “principles of system engineering”, dan “computational intelligence systems” dalam agroindustry (1)
5. 6. 7.
Mampu menjelaskan dan menerapkan prinsip dan proses desain dan menerapkannya dalam pengembangan rekayasa sistem, rekayasa strategi agroindustri, dan inovasi dalam perancangan, operasi dan pengembangan agroindustri
8. 9.
Mampu mengkaji (asesmen) perkembangan dan penerapan inovative computational strategy technology (bioplastik, energi baru dan terbarukan, bioplastik, biopestisida, bioinsektisida, biodegradable materials, inovative computational strategy chemicals, nanomaterial, etc), dan mengidentifikasi potensi-potensi pengembangan
Topics Konsep Rekayasa sistem; hubungan proses pengidentifikasian kebutuhan dan agroindustri Konsep “pengembangan “industrial system”; “principles of system engineering”, dan “computational intelligence systems” dalam agroindustry ” Prinsip dan proses desain rekayasa sistem, rekayasa strategi agroindustri, dan inovasi dalam perancangan
Midterm Exam Asesmen perkembangan dan penerapan inovative computational strategy technology
References 1, 2
Lecturer Marimin
1, 2
Marimin
1, 2
Syamsul
1, 2
Syamsul
10. 11.
Memahami konsep dan mampu mengaplikasikan tools baru perumusan, pemodelan dan aplikasi startegi agroindustri
12. 13. 14.
Mampu mensintesa state of the arts bidang rekayasa sistem dan staretgi agroindustri pada permasalahan proses dan bioproses serta isu lingkungan keberlanjutan dalam industri.
Konsep dan teknik penerapan tools baru dalam perumusan, pemodelan dan aplikasi strategi agroindustri Evaluasi dampak aplikasi rekayasa sistem pada isu lingkungan dan keberlanjutan industri
1, 2
Sukardi
1, 2
Sukardi
Final Exams MAIN REFERENCE: 1. 2.
Newman G Donald, Eschenbach G Ted, and Lavelle P Jerome. 2012. Engineering Economic Analysis. Oxford University Press, Inc Fraser M Niall and Jewkes M Elizabeth. 2013. Engineering Economics: Financial Decision Making for Engineers. Pearson Canada Inc
