COURSE STRUCTURE UNDERGRADUATE PROGRAM IN NAVAL ARCHITECTURE AND MARINE ENGINEERING REGULLAR
Subtotal 13 Total 144
Resume
Wajib Universitas 18
Wajib Fakultas 28
Wajib Program Studi 86 Jumlah 132
Pilihan 12
Total Beban Studi 144
110
NAVAL ARCHITECTURE & MARINE ENGIEERING
ELECTIVES
KODE MATA AJARAN PILIHAN SEMESTER 7 SKS
SUBJECT
ENME803183 Marine and Offshore Structure 4
ENME803184 Sea Transportation Port Manag. 4
ENME803185 Maritime Law and regulation 4
KODE MATA AJARAN PILIHAN SEMESTER 8 SKS
SUBJECT
ENME804186 Special Ship Project 4
ENME804187 Ship Production Management 4
ENME802103 Energy Optimization System 4
ENME804188 Maritime Energy Management 4
ENME804189 Maritime Safety 4
ENME804190 Advanced Welding Engineering 4
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NAVAL ARCHITECTURE &MARINE ENGINEERING
112
4.5. UNDERGRADUATE PROGRAM IN ELECTRICAL ENGINEERING
Program Specification1. Awarding Institution Universitas Indonesia
Double Degree: Universitas Indonesia and partner university 2. Teaching Institution Universitas Indonesia
Double Degree: Universitas Indonesia and partner university 3. Programme Tittle Undergraduate Program in Electrical Engineering
4. Class Regular, Parallel, International
5. Final Award Sarjana Teknik (S.T)
Double Degree: Sarjana Teknik (S.T) and Bachelor of Engineer- ing (B.Eng)
6. Accreditation / Recognition BAN-PT: A accredited AUN-QA
7. Language(s) of Instruction Bahasa Indonesia and English 8. Study Scheme (Full Time / Part
Time) Full Time
9. Entry
Requirements High school /equivalent, or D3 / Polytechnique / equivalent, AND pass the entrance exam.
10. Study Duration Designed for 4 years
Type of Semester Number of Semester Number of weeks / semester
Regular 8 17
Short (optional) 3 8
11. Graduate Profiles:
Bachelor of engineering who is able to design both hardware and/or software as solution in electri- cal engineering problem based on technological advancement in accordance with professional ethics.
12. Expected Learning Outcomes:
General outcomes:
1. Able to design hardware.
2. Able to design software.
3. Able to handle general issues and specific in electrical engineering.
4. Able to apply the basic principles of mathematics, physics, and statistics in solving electrical engineering.
5. Capable of critical thinking, creative, and innovative and have the intellectual curiosity to solve problems at the level of the individual and the group.
6. Able to identify varieties of entrepreneurial efforts that are characterized by innovation and self-reliance based on ethics.
7. Able to use the language both spoken and written in the Bahasa Indonesia and English for academic or non-academic activities.
8. Able to provide alternative solutions to problems that arise in the environment, society, na- tion, and country.
9. Able to utilize information communication technology (ICT).
Electronics Engineering Majoring Outcomes:
1. Able to design advanced electronics circuit.
2. Able to analyse photonic devices.
3. Able to design MEMS.
4. Able to design VLSI circuit.
5. Able to analyse state of the art in the field of electronics and photonics.
6. Able to utilize technological advancement to solve problems related to his/her expertise (stream).
ELECTRICAL ENGINEERING
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12. Telecommunication Engineering Majoring Outcomes:
1. Able to design wire and wireless communication equipment system.
2. Able to design communication network system
3. Able to analyse the performance of communication systems on different media.
4. Able to identify the process of information signal processing.
5. Able to examine the development of telecommunications engineering
6. Able to study the latest technology to solve the problem of appropriate areas of expertise (Majoring)
Control Engineering Majoring Outcomes:
1. Able to identify dynamic control system in mathematical equation.
2. Able to design discrete controller.
3. Able to design knowledge-based controller.
4. Able to reverse engineer simple controller.
5. Able to study the latest technology to solve the problem of appropriate areas of expertise (Majoring)
Electrical Power Engineering Majoring:
1. Able to characterize electric power engineering and energy.
2. Able to review the latest technology to solve the problem of electric power and energy fields.
3. Able to analyze the phenomenon of high field to resolve the problems of the field of electric power.
4. Able to itemize the problems of electric power and energy.
5. Able to design simple application in the fields of electric power and energy.
6. Able to study the latest technology to solve the problem of appropriate areas of expertise (Majoring).
Biomedical Engineering Majoring Outcomes:
1. Able to apply the basic principles of biology in field of biomedicine engineering.
2. Able to apply the techniques, skills and modern tools that are necessary in the practice of biomedicine engineering.
3. Able to analyse medical data/information related to the condition of human physiology.
4. Able to make simple medical device design at the level of individuals and groups.
5. Able to process medical signal to improve the performance of a medical device.
6. Able to study the latest technology to solve the problem of appropriate areas of expertise (Majoring).
13 Classification of Subjects
No. Classification Credit Hours (SKS) Percentage
i University General Subjects 18 12,5 %
ii Basic Engineering Subjects 18 12,5 %
iii Core Subjects 71 49,31 %
iv Stream Subject 21 14,58 %
iv Elective Subjects 8 5,56 %
v Special Subject (Internship, Semi-
nar, Undergraduate Thesis) 8 5,56 %
Total 144 100 %
14. Total Credit Hours to Graduate 144 SKS
Career Prospects
The graduates of this program have been employed in various inductrial companies within one month (in average) after the graduation. Some of them are involved in power engineering, IT, electronic, oil & gas, telecommunication and other related inductries. Some of graduates were even employed before the graduation.
Some occupation or job titles that are suitable for this program are electrical engineer, process engineer, control engineer, instrumentation engineer, program manager, project manager, techni- cal manager and professional lecturers.