Bachelor of Computer Engineering and Master of Electrical Engineering with specialization in cyber security and the future internet. Bachelor in Computer Engineering and Master of Electrical Engineering with specialization in Data Engineering and Business Intelligence.

History of FTUI

The Establishment of Faculty of Engineering UI

Vision and Mission of FTUI

FTUI Vision

FTUI Mission

Priority Programs for 2022-2026 1. Organization of Multidiscipline Engineering

UI and FTUI Administration

FTUI

Departments

Civil Engineering

Mechanical Engineering

Electrical Engineering

Metallurgical & Materials Engineering

Architecture

Chemical Engineering

Study Programs

Professional Program for Engineers

Urban & Regional Planning

15Board of Professors

Koichi Ito (Printed Antenna, Small Antenna, Medical Application of Antenna, Evaluation of Interaction Between Human Body and Electromagnetic Radiation), Chiba University, Japan. Printed antenna, small antenna, medical application of antenna, evaluation of interaction between human body and electromagnetic radiation), Chiba University, Japan.

Academic Programs at FTUI

17Seven Doctoral Programs

Accreditation of FTUI Academic Programs

Undergraduate Regular Class Program

Programs to be accredited are four-year engineering undergraduate programs or other higher education programs deemed equivalent by IABEE. The program must systematically design the curriculum to ensure that the learning outcomes of the program are achieved.

Undergraduate Parallel Class Program

These CC consist of elements that the study program must meet in order to be accredited. The program must also make continuous improvements while taking into account the sustainability of operations.

International Undergraduate Program (Double-Degree & Single Degree)

In cases where multiple programs of the same nomenclature are offered in multiple locations by the same program implementing institution (such as programs established under the Program Studi di Luar Kampus Utama (PKSDU) scheme as defined in the Indonesian Ministerial Regulation Peraturan Menteri Riset, , Teknologi, dan Pendidikan Tinggi No assessment by IABEE considers parallel programs as separate entities.The objectives are to broaden students' international perspective, provide students with an overseas university study experience, improve students' language skills, and improve students.

Undergraduate Parallel Class Program (Diploma Track)

19Available here: http://international.ui.ac.id/international-Available here: http://international.ui.ac.id/international-.

Professional Program

Professional Program for Architects

Master Program

Special Class Program for Power System Engineering, Biomedical Technology and other Special Class programs: Monday – Friday (05.00 – 09.30) at FTUI Campus, Salemba.

Doctoral Program

Department of Civil Engineering

General

21To maintain its quality, the Department has been regularly

Corresponding Address Departemen Teknik Sipil

Missions

Staffs of The Department Of Civil Engineering Ayomi Dita Rarasati , ST, MT, PhD

Board of Professors

• Prof. Setyo Sarwanto Moersidik,
• Andyka Kusuma,
• Ayomi Dita Rarasati,
• Cindy Rianti Priadi,
• Djoko M. Hartono,
• Evi Anggraheni.,
• Erly Bahsan,
• Fadhilah Muslim,
• Gabriel Sudarmini Boedi Andari,
• Irwan Katili,
• Jessica Sjah,
• Josia Irwan Rastandi,
• Leni Sagita,
• Mochammad Adhiraga Pratama,
• Mohammed Ali Berawi,
• Mulia Orientilize,
• Nahry,
• Nyoman Suwartha,
• RM. Sandyanto Adityosulindro,
• RR. Dwinanti Rika Marthanty,
• Setyo Sarwanto Moersidik,
• Sigit Pranowo Hadiwardoyo,
• Rossy Armyn Machfudiyanto,

Fadhilahmuslim@ui.ac.id (S.T., UI; M.Sc., École des Ponts ParisTech (ENPC), Ph.D., Imperial College London);.

2336. Widjojo Adi Prakoso,

Wisnu Isvara,

Wiwik Rahayu,

Yuskar Lase,

Yusuf Latief,

Part-Time Faculty

Ellen SW Tangkudung,

Essy Ariyuni,

Heddy Rohandi Agah,

Madsuri

Setyo Supriyadi,

Titi Sari Nurul Rachmawati,

Lucky Caesar Direstiyani,

Department of Mechanical Engineering

Contact

Mission

Staffs of The Department Of Mechanical Engineering

Board of Professor

• Agung Shamsuddin,
• Agus Sunjarianto Pamitran,
• Ahmad Indra Siswantara,
• Ardiyansyah,
• Firman Ady Nugroho,
• Gatot Prayogo,
• Gerry Liston Putra,
• Hendri Dwi Saptioratri Budiono,
• Henky Suskito Nugroho,
• Imansyah Ibnu Hakim,
• Muhammad Arif Budiyanto,
• Yudan Whulanza,
• Rusdy Malin,
• Arnas Lubis,

Head of Air Conditioning Engineering Laboratory Head of Research Cluster - Kelompok Ilmu (KI) Prof. Dr. .

Department of Electrical Engineering

Objective

Vision

The Targets

Able to design solutions to problems in the field of electrical engineering using appropriate research methods. Able to recommend strategies to improve efficiency, quality of service and power quality in power system management.

29technological rules, laws and applied regulations

Head Of Laboratory

Mailing address

• Prof. Masaaki Nagatsu,
• Prof. Michiharu Tabe,
• Prof. Hiroshi Inokawa,
• Prof. Hidenori Mimura,
• Agus Rustamadji Utomo,
• Aji Nur Widyanto,
• Ajib Setyo Arifin,
• Alfan Prasekal,
• Amien Rahardjo,
• Arief Udhiarto,
• Aries Subiantoro,
• Basari,
• Budi Sudiarto,

Josaphat Tetuko Sri Sumantyo, Ph.D, jtetukoss@faculty.chiba-u.jp (Fundamental Research jtetukoss@faculty.chiba-u.jp (Fundamental Research Area of ​​Remote Sensing: Microwave Remote Sensing), Center for Environmental Remote Sensing (CEReS ), Chiba University, Japan.

3112. Catur Apriono,

Chairul Hudaya,

Dodi Sudiana,

Eko Adhi Setiawan,

Faiz Husnayain,

F. Astha Ekadiyanto,

Feri Yusivar,

Gunawan Wibisono,

I Gde Dharma Nugraha,

I Made Ardita,

Mia Rizkinia,

Muhammad Salman,

Muhammad Suryanegara,

Naufan Raharya,

Nur Imaniati Sumantri,

Prima Dewi Purnamasari,

Purnomo Sidi Priambodo,

Puspita Anggraini Katili,

Rizal,

Taufiq Alif Kurniawan,

Tomy Abuzairi,

Yan Maraden Sinaga,

Yohan Suryanto

Board Of Emiritus Faculty

Dr. Uno Bintang Sudibyo,DEA

Wahidin Wahab,

Department of Metallurgical and Materials Engineering

33Education (Year 2018 – 2023)

Contact Address

Staff Of The Department Of Metallurgical And Materials Engineering

Prof. Kozo Obara,

Prof. Akbar Rahamdhani,

Ahmad Zakiyudin,

Azizah Intan Pangesty,

Badrul Munir,

Bambang Priyono,

Deni Ferdian,

Dwi Marta Nurjaya,

Muhammad Chalid,

Reza Miftahul Ulum,

Rini Riastuti,

Sotya Astutiningsih,

Sri Harjanto,

Wahyuaji Narotama Putra

Yudha Pratesa,

Sari Katili,

Alfian Ferdiansyah,

355. Adam Febriyanto Nugraha

Yunita Sadeli,

Study Program

Department of Architecture

In 2009, a PhD program and a one-year program of Professional Program of Architect (PPAR) will be established. The PhD program aims to strengthen the Department of Architecture as a leading architecture-based research institution.

Corresponding Address Department of Architecture

The doctoral student's research is focused on two areas: major research areas (research based on architectural issues) and a minor research area (related to a specialized field of study), in which doctoral students have the opportunity to take courses outside the discipline of architecture in order to specifically support knowledge, thoughts and methods of their course. The learning process takes place through researching the breadth and depth of knowledge about the issue under consideration.

Board Of Emeritus Faculty

PPAR graduates may also transfer the credit into UI to continue toward a master's degree in architecture. Triatno Yudo Harjoko., Msc, Ph.D 4. Triatno Yudo Harjoko., Msc, Ph.D. Ir. Architecture Universitas Indonesia, 1978; MSc. in Urban Planning, University of Wales, UK, 1986; Ph.D in Environmental Design, University of Canberra, Professor in 2008) Architectural Design; Research methods in architecture; Urban housing and settlements.

Full-Time Faculty

• Arif Rahman Wahid, S.Ars., M.A
• Elita Nuraeny, S.Ars., M.A
• Nevine Rafa, S.Ars., M.A
• Agus Danang Ismoyo, S.T., MALD
• Ir. Siti Utamini
• Ir. Sukisno, MS

Ir., Arsitektur, Universitas Indonesia; M.Si, Ilmu Lingkungan Universitas Indonesia) Teknologi Konstruksi, Perancangan Arsitektur. Ir., Arsitektur, Universitas Gajah Mada; MSi, Ilmu Lingkungan, Universitas Indonesia) Teknologi Konstruksi; Ekologi Perkotaan.

Department of Chemical Engineering

Corresponding Address

Sutrasno Kartohardjono, M.Sc, PhD, sutrasno@che.ui.ac.id (Ir, UI; MSc, UTM, Malaysia; PhD, University of New South Wales, Australia): Gas absorption and desorption in a hollow fiber membrane contractor , use of hollow fiber membrane for efficient biomass production. Mahmud Sudibandriyo, M.Sc., Ph.D, msudib@che.ui.ac.id (Ir, ITB; M.Sc and PhD, Oklahoma State University, USA): Thermodynamics-adsorption &.

41Controlled release of drug and bioactive compounds,

Department of Industrial Engineering

Management

43Dynamics

Andri Mubarak,

Armand Omar Moeis,

Arian Dhini,

Arry Rahmawan,

Billy M. Iqbal,

Dendi P. Ishak,

Erlinda Muslim,

Fauzia Dianawati,

Farizal,

Inaki M. Hakim,

Irvanu Rahman,

Komarudin,

Romadhani Ardi,

Zulkarnain,

Annisa Marlin Masbar Rus,

Boy Nurtjahyo Moch,

Ekky Tammarar,

Enrico Laoh,

Yadrifil,

Teuku Naraski Zahari,

Nurul Lathifah,

Nora Nisrina,

Rheinanda Kaniaswari,

Salsabila Annisa Arista,

Rahmi Lathifah Islami,

Academic System and Regulation

Teaching and Learning Activities

Semester Credits Units (SKS)

Subjects

Grade Point Average

Semester Grade Point Average (SGPA) Grade Point Average (GPA/IPK)

Academic Performance Evaluation

Grades

47as internship, seminar, and final project) that has not been

Length of Study and Academic Load Undergraduate Program

Matriculation for Master

Fast Track (Master – Doctoral Program)

The study load in the curriculum of the FTUI doctoral program is set at 50 credits after completion of the master's program. The students submit the student's course load per semester to the Academic Advisor (PA) or the PhD supervisor for approval.

Undergraduate Final Project (Skripsi)

New students are required to take all subjects as assigned in the curriculum for the first and second semesters. Students in the doctoral program may be granted an extension of up to 2 (two) semesters if they have never been granted an extension before, have achieved a minimum grade of 'B' in research research results and have received advice from their supervisor and a guarantee that they will complete their studies within the granted extension period.

Thesis (Master Program)

The proposal for such an extension is regulated in a vice-chancellor's executive order following a proposal from the dean.

49Internship for Undergraduate Student

Supplementary Exam

Credit Transfer

Credit Transfer for Parallel Class Students of Diploma Graduates

Study Abroad

Fast Track (Undergraduate – Master Program)

For the undergraduate program, there are 144 (one hundred and forty-four) credit points, including 16-22 credit points of elective courses from the main competency courses of the master's program. There are 40-44 credit points for the master's program, including 16-22 credit points from the subjects mentioned in point a above, and they are recognized by credit transfer.

Requirements and Procedure for Fast Track Registra- tion

If a student is unable to complete his/her undergraduate program in 8 (eight) semesters, then the student will be considered unable to complete the Fast Track program, causing all Master's Program courses he/she has received will be taken into account. as an elective course at the end of the undergraduate program and cannot be recognized as part of their credit to continue in the Master's Program.

Fast Track (Undergraduate – Doctoral Program) Fast Track (Undergraduate – Doctoral Program) is an educa-

Merdeka Belajar Kampus Merdeka Program

51ers, based on the number of hours and type/form of activities

Administrative and Academic Registration

Academic Calendar

Registration and Course Guidelines

Administrative Registration

Academic Registration

Students must log in to https://academic.ui.ac.id using the username and password provided by the Office of Direktorat Sistem & Teknologi Informasi (DSTI) UI. After completing the online FRS, students must print the form (3 copies) and meet with their PA to discuss, verify and validate the courses completed.

Sanctions

Students should check their FRS after the registration period to ensure that the courses taken are correct. Penalties will be imposed on students for late administrative and academic registration, according to university or faculty regulations.

Exception Administrative Registration

Prerequisite Courses

Requirements for Transfer to Partner Universities in Australia for Double Degree Program

English Language Requirements for Undergraduate International Program Single Degree

531. Student choose a Partner University

Graduate Predicate

Academic Performance Evaluation and Dropout Criteria

Undergraduate Program

They are considered unfit to continue their studies based on the judgment of a panel of doctors appointed by the Head of the University. Students who are still achieving satisfactory academic performance and meet the assessment criteria for continuing their studies, but wish to withdraw of their own volition, may submit a written request to the Vice Dean, with a copy to the Department Chair.

Master’s Program

Academic Leave

Faculty and Department Judiciums

Semester Grade Transcript, Diploma and Academic Transcripts

Offenses and Sanctions

Academic Sanction for Perpetrators of Academic Cheating In Exams

Academic Sanction on Plagiarism and Act of Fraud in the Completion of Final Project

Academic Regulation Of The Universitas Indonesia

57Education

Research

Facilities and Campus Life

New Facilities Available in FTUI

Integrated Students Service Building (PPMT)

Faculty Administration Center

University Central Library

UI Central Library Services

Information Package

Information Search Training

Circulation services are located on Level 1. The library's collection of reference books, theses, dissertations, research reports and UI-ana can only be read on-site at the UI Central Library.

UI Central Library Facilities OPAC (Online Public Access Catalog)

Internet Access

Computer, Scanner and Data Backup

Special Study Rooms

Locker

Computer Sciences & Network

Student Welfare

Universitas Indonesia Mosques

Teksas Bridge

The side of the bridge at the UI of the Faculty of Humanities reflects a flexible and feminine character, symbolized by a “Hole Gate”-shaped Pylon Bridge as a symbol of.

Campus Bus

Executive Bus

Student Welfare and Facility Building (GKFM) / University Health Center

Polyclinic Unit

Pharmacy

UI Student Counseling and Guidance (BKM)

Services in the UI Student Counseling and Guidance

Problems handled by BKM UI

BKM UI’s other services

UI Salemba Polyclinic

Student Dormitory

UI Wismarini Student Dormitory

Smart Classroom

Integrated - Creative Engineering Learning Laboratory (i-CELL)

Facility

Other information

Wisma Makara

UI Student Activity Center (PUSGIWA)

Registration Process Flow Chart for UI Dormitory

Make sure you have both hands on the bike handle, put your books/bags on the designated space. Ride the bike on the designated lane, stay on the left side of the lane when passing other bikes.

Student Organization

The borrowed bicycle is the responsibility of each student until it is returned to the officer in charge of each bicycle shed. For use outside the day and service hours, the interested party must be coordinated in accordance with the existing regulation.

UI Students Hall

Students can return a borrowed bike to the nearest bicycle store by presenting their student card (KTM) to the official of the said shelter. Adjust the seat according to your height, the height of the seat determines your comfort when cycling.

Sport Facilities

Stadium

Passing them off the available track or taking them outside the campus area is prohibited. Each bicycle is equipped with luggage with a maximum capacity of 10 kg and must not be used as a passenger seat.

In Door (Gymnasium)

Bike to Campus

651. Students Forum

Students Representative Council (Dewan Perwakilan Mahasiswa - DPM)

Students Representative Council (Badan Ekse- kutif Mahasiswa - BEM)

Student Activity Unit (Unit Kegiatan Mahasiswa - UKM)

Career Development Center

National Student Science Week

Student Creativity Program – Research (PKM-P) This program is a research program that aimed to identify

Student Creativity Program - Technology Application (PKM-T)

Student Creativity Program – Entrepreneurship (PKM-K)

Student Creativity Program – Community Service (PKM-M)

Student Creativity Program – Written Concept (PKM - GT)

Scholarship

67There are two types of scholarship in UI

List of Name of Scholarship Donor/Sponsor For Universitas Indonesia Students

BRI 19. BUMN

LGE 32. MARUBENI

A notification letter from the Faculty's Assistant Dean of Student Affairs to the Directorate of Student Affairs.

Insurance

General Information

Post Office, Depok Campus

Important Phone Numbers UI Campus Salemba

UI Campus Depok

Ambulance

International Journal of Technology

Quality in Research (QiR) Conference

International Office

Central Administration Building 1st Floor, Universitas Indonesia

Undergraduate Program in Civil Engineering

Language(s) of Instruction Bahasa Indonesia and English 10. Study Scheme (Full Time / Part Time) Full Time

Entry

Aims of The Programme

7315.Expected Learning Outcomes

Classification of Subjects

Course Structure of Undergraduate Program in Civil Engineering (Regular/

Parallel)

1 st Semester

6 th Semester

77Electives Course

4 th Semester ENCV 604 101 Application of the FEM with

Structural Engineering Courses

Geotechnical Engineering Courses

Water Resource Engineering Courses

Transportation Engineering Courses

All subjects in the 2016 curriculum that are not listed in the equivalence table have not changed, both in name and credits. For students who have taught these subjects, the earned credits will be counted in the 144-credit matriculation calculation. For students who have not passed these courses, they can take new compulsory courses or choose elective courses in the 2020 curriculum to complete 144. credits.

7914Statistic & Probabilistic2Statistic & Probabilistic

Course Structure International Undergraduate Program on Civil

Electives Course

Odd Semester

Even Semester ENCV 618 103 Application of the FEM with

81ENCV 618 504Introduction to Procurement

17 Road Geometric Design 3 Highway Engineering Design 1 4 Those who have not passed either Road Geometric Design or Pavement Engineering must register for both Highway Engineering 1 and 2.

Course Sylabus of University Subjects

INTEGRATED CHARACTER BUILDING UIGE6000061/UIGE6100061

ACADEMIC WRITING UIGE610002

ENGLISH UIGE600003

85Learning Objectives

ISLAMIC STUDIES UIGE6000010/UIGE610005

CATHOLIC STUDIES UIGE6000011/UIGE610006

CHRISTIAN STUDIES UIGE6000012/UIGE610007

HINDU STUDIES UIGE6000013/UIGE610008

BUDDHIST STUDIES UIGE6000014/UIGE610009

KONG HU CU STUDY UIGE6000015/UIGE610010

Syllabus of Faculty Subjects

CALCULUS

LINEAR ALGEBRA ENGE600004/ENGE610004

87Linear Systems and matrix equations, Determinants, Euclid

MECHANICAL AND HEAT PHYSICS ENGE600005 / ENGE610005

ELECTRICAL MAGNETIC, OPTICAL AND WAVE PHYSICS

BASIC CHEMISTRY ENGE600009 / ENGE610009

ENGINEERING ECONOMY ENGE600011 / ENGE610011

STATISTICS AND PROBABILISTICS ENGE600010 / ENGE610010

Course Syllabus of Undergraduate Program on Civil Engineering

Mechanics and Thermal Physics ENCV 601 001

89Environmental Basic Chemistry

Be able to apply Newton's laws in the calculation of reactions and forces in certain static structures (CLO 1). Be able to draw building structures of 2 storeys or more in accordance with the principles of engineering drawing (CLO 10).

91Learning Experiences

Be able to categorize soil based on USCS and understand the physical properties and ternary diagrams of soil (CLO 1) 2. Conduct laboratory experiments or view a virtual laboratory to understand the physical properties of soil.

93for Cartography at the Faculty of Natural Sciences Vilnius

Can analyze indeterminate static structures with classical methods (three moment equation, slope deflection and moment distribution) and stiffness methods (CLO 2) 2. Can analyze Civil Engineering problems and can quantify parameters related to linear programming approach (CLO 2). .

97ley Publishing Company, USA

Be able to use the ArcGIS geospatial model to prepare input data for the Hec-HMS hydrological model (CLO 5). Be able to evaluate the implications of changes in the hypothetical spatial planning of the area for the extent of the flood plan and the dimensions of the water infrastructure (CLO 7).

99to evaluate the implications of changes in spatial planning in

Understanding ethics and morality; Ethical theories; Professional ethics; Construction business ethics; Ethics towards the environment; Laws and regulations in the construction sector;

Special Course

Elective Course

101Course Learning Outcomes (CLO)

Civil Engineering Fast-Track Curriculum (Undergraduate and Graduate)

Undergraduate Program in Environmental Engineering

Expected Learning Outcomes (ELO)

Apply knowledge of mathematics, science, engineering fundamentals, and environmental engineering specialization to solve complex engineering problems (C3-WA1/Technical Knowledge). Identify complex environmental problems and reach informed conclusions using first principles of mathematics, physical sciences and engineering sciences.

107PSBTL: Structural Design for Environmental Engineering In-

EIA & ISO: Environmental Impact Assessment & ISO PJPAL: Wastewater Collection System Design PIPAM: Treatment Plant Design PLIB3: Hazardous and Industrial Waste Treatment PJDAM: Drinking Water Distribution System Design PPLIMBAT: Integrated Solid Waste Management Design OHS and Environmental Risks: Health at work and Safety and environmental risks.

109PSBTL: Structural Design for Environmental Engineering In-

113Flow Diagram of Subjects in Environmental Engineering Undergraduate Programme

Course Structure Undergraduate Program Environmental Engineering

4 th Semester

5 th Semester ENEV 605 102 Introduction to Environmental

1157th Semester

8 th Semester ENEV 608 108 Sludge processing and

Environmental Engineering Undergraduate Minor Curriculum

Code Environmental Engineering

Students who have not passed or failed the MK in Soil Surveying (3 credits) in the 2016 curriculum must complete the MK in Earth and Mapping (2 credits) in the 2020 curriculum. Students who have not passed or failed the MK in Mechanics of Solids (3 credits) in the 2016 curriculum, must complete the MK in Structural Mechanics II (2 credits) in the 2020 curriculum.

117No Name of Courses in Curriculum 2016Credits

Urban Planning and Sanitation 3 Urban Planning and Sanitation 3 Change of subject position from 5th to 3rd semester.

Course Syllabus of University Subjects

Man, morality, science, technology and art; harmony between religions; Society, culture, politics, law: the content of these studies will be addressed by integrating the four dimensions of the teachings of the Catholic faith: the personal dimension, the dimension of Jesus Christ, the dimension of the Church and the community dimension. Cultivating students with comprehensive Christian knowledge and teaching in the midst of the struggle and the struggle of the nation, while discussing the student's participation in line with the study to help improve and build our country.

121the enforcement of justice, Awareness of and obeying the Rita

Syllabus Of Faculty Subjects

Able to apply mathematics, science and basic engineering and an engineering specialization to be used in solving complex engineering problems. Able to apply mathematics, science and basic engineering to be used in solving complex engineering problems.

Syllabus of Undergraduate Program on Environmental Engineering

Explain environmental engineering and its subspecialty scope of work through teamwork skills and give a verbal and written report on environmental engineering jobs. Physical and non-physical components in the Environmental Engineering System; interrelationship of the field of work between subspecializations in environmental engineering; technical and non-technical aspects (legal, social, economic and health) in the engineering infrastructure system, environmental engineering and the scope of its sub-specialization; the role of the environmental engineer.

125Text Book Reference

Engineering ENEV 602 002

Basic Chemistry Laboratory ENEV 602 003

Able to explain the microbiological system and its relationship with growth, distribution and habitat. Able to explain the different physical properties and chemical properties of materials used for water treatment systems, waste management systems and environmental engineering buildings.

129Learning Experiences

Students are able to design a solid waste management system in engineering aspects, starting from the waste sources to the final processing facility. General solid waste management system and its functional elements; Solid waste management system in Indonesia, policies and laws, related regulations; classification of solid waste from households according to origin, type and composition; Physical, chemical and biological characteristics of solid household waste;

131Prerequisite: -

Be able to explain the source, type and effect of air pollution and related air pollution policy. The History of Air Pollution; standard and regulation on air pollution; air pollution impact; meteorological factor and air pollution mechanism; sulfur oxide; nitric oxide; particles;.

133Global Agenda 21 and Indonesia Agenda 21 in sustainable

Elective Course in Environmental

Engineering Undergraduate Programme

Able to analyze applied sanitation needs in slums with contextual attention to social, health and safety concerns, and in accordance with local law and tradition. The student is able to carry out the task delegated by the internship supervisor in a professional manner and demonstrate a positive attitude.

135and Value Preposition Canvas; Identify problems related to the

Able to relate the latest topics in environmental engineering and infrastructure systems to the core environmental engineering competencies they already possess. This course aims to prepare the student in facing the pandemic crisis and able to provide an appropriate response from an environmental engineering perspective.

137Overview of pollution prevention effectiveness in industry,

Course of Fast Track S1-S2 Environmental Engineering

5 th Semester

Undergraduate Program in Mechanical Engineering

Aims of the programme

Career Prospects

Composition of Subjects

Curriculum Structure of Mechanical Engineering Study Program

Code Electives Courses, Odd

6 th Semester ENME600001 Design Assignment 1 (Concep-

7 th Semester

8 th Semester

Total 144

The list of Elective Courses

Code Electives Courses, Even

Transition Policy from the 2016 to the 2020 Curriculum

1 st Semester ENME611001 Introduction to Mechanical

Curriculum of International Program In

Solving problems in science, technology, health and people as natural managers using reasoning and leveraging information and communication technology (ICT) to achieve the final objectives of this module. To enable students, English, so that they will be able to communicate effectively in English;.

151The cultivation of students who have concern for social,

Students are able to use the concepts of sequences, series, conic sections and the basic concepts of calculus involving the function of two or three variables to solve their applied problems. Students are able to use the basic concepts of calculus involving functions of one to three variables to solve their applied problems.

153Units, Magnitudes and Vectors, Motion Along Straight Lines,

Students are expected to understand safety, health and environmental aspect as an integral part of the fundamental principal in engineering code of ethics. Introduction to SHE Regulation and Standards, SHE Perception (Risk and Environment), Identification, Assessment and Management, Construction, Machinery and Noise Hazards, Process Safety Hazard and Analysis Technique, Fire and Explosion Hazard, Electrical Hazard, Toxicology in the Workplace, Ergonomics Aspect , Hazard Communication to Employees, Environmental Protection, Case Studies, Safety Health and Environmental Audits.

Syllabus Mechanical Engineering Study Program

Students are expected to be able to carry out the process of risk assessments by considering risk factors in the impact of hazards on people, facilities and the surrounding community and environment. Students are expected to understand the regulatory framework and standards related to the life cycle phases of machine, building structure, construction and process.

155Learning Outcome(s)

This course will study the basic knowledge and introduction to the aspect of living organisms that has close relation to the field of mechanical engineering. Introduction to numerical method and programming: simple mathematical modelling, programming and software, structural programming, modular programming, iterative method.

159momentum, stiff body motion, works and energy, relative

Linear approximation and signal analysis; History of development and basic physics of electrical power generation Electromechanical energy conversion; Single Phase and Three Phase Transformer; Three phase generation. This course discusses the energy sources, type and classification of energy, energy conversion, energy consumption, basic concept of energy conversion, power sources and classification of energy conversion engines.

Special Subjects Mechanical Engineering Study Program

The students understand the energy source, type of energy conversion engine, conversion and conservation of energy system, and are also able to perform a basic calculation of energy conversion engine performance and critical consideration of energy conversion. Definition of energy and energy sources, type and energy classification, law and equation in energy conversion, energy profile (resources, reserves and the world and Indonesia's energy needs), basic concept of energy conversion system, power sources and classification of energy conversion engine, fuel in energy conversion, renewable energy , non-renewable energy, classification of combustion engine, calculation for internal combustion engine performance, steam power plant, fluid machinery, refrigeration engine classification, thermodynamic cycle of refrigeration engine, energy conversion method in vehicle, industry and building.

Elective Subjects Mechanical Engineering Study Program

163friendly refrigerants including the technical implementation

This course provides an understanding of the manufacturing techniques and basic structural mechanics in the product, as well as a micro-characterization of the manufacturing process carried out in the laboratory. This course provides basic competency of principles in design techniques that control the movement of size or dimensions in very small compared to the size of the object that is planned and manufactured, correct design and development machine and precision mechanism.

165ing. Taylor and Francis, 2006

Special topics in the field of entrepreneurship that have not been covered in other subjects. Special topics in the non-engineering industrial sector not covered in other subjects.

167References: -

Students understand the basic and important parameters of the fire process (fire), the phenomenon of fire dynamics and fire danger. Theory and method of mass deformation processes; Theory and method of metal forming processes; Theory and method of powder metallurgical processes; Theory and method of material processing/cutting processes; Theory and method for improving manufactured surface quality; Theory and method of joining processes; Theory and method of prototyping; Technical material characteristics; Relationship between process properties and material characteristics; Parameter control of process for material; Task in manufacturing process and material selection for market needs.

169Pre-requisite(s): -

Heat transfer review; Type and use of heat exchangers; Practical design of shell and tube heat exchanger (thermal and mechanical); Estimation of production costs; Heat exchangers; Operation and monitoring of heat exchangers (fouling and vibrations); Maintenance of heat exchangers;. Corrosion on heat exchangers; Heat exchanger design software; Presentation and laboratory exercises of heat exchangers.

171Pre-requisite(s)

This lecture will discuss the technology of CAD, CAM, the integration of CAD / CAM application in industry and the emphasis on: the principles of modeling and surface curve geometry (geometric modeling), the design of 2D and 3D models. The principle of data exchange between CAD/CAM systems also toolpath design using computer for prismatic and sculpted model.

173AUTOMATION AND ROBOTICS

Weather factors, topography, vegetation types, topography and human activity factors in the process of forest and land fires. Characterization of potential, assessment of risks and hazards of forest and land fires: (ignition), flammability, heat release rate, fire spread rate, production rate of hazardous vapors and gases and fire hazard assessment.

175MACHINE VISION SYSTEM

Students are able to understand the fire protection system which is both passive and active. Tewarson A, Khan MM (1991) The role of active and passive fire protection techniques in fire control, 4.

177Topic

7 th Semester

Curriculum for Fast Track Programme (S1 and S2)

ENME804139 Industrial Process Fire Protection 4 ENME803135 Fire Fighting Techniques and Strategies 4 Product Design and Manufacturing ENME801140 Material and Manufacturing Process 4 ENME801141 Design Methodology and Product Development 4 ENME802142 Design and Manufacturing Technology Integration 4.

Bahan Kajian on Mechancial Engineering Study Porgram

Minor in Mechanical Engineering

Pre-requisite: Mathematics, Physics, Engineering Drawing

Undergraduate Program in Naval Architecture and Marine Engineering

Profile of Graduates

Able to apply basic knowledge of mathematics, basic science and information technology necessary to achieve competence in the field of Naval Architecture and Marine Engineering. Able to apply modern methods, skills and technical tools necessary for engineering practices such as the selection of materials and processes, and the design of computer-aided ships.

183Flow Diagram of Expected Learning Outcomes

Subject Structure Undergraduate Program in Naval Architecture and

2 nd Semester

6 th Semester

7 th Semester

8 th Semester

Elective Subjects Undergraduate Program In Naval Architecture And

In principle, after the implementation of the 2016 Curriculum, only the courses in the 2020 Curriculum will be opened. For students who have not passed the compulsory courses in the 2016 curriculum, they are required to take the same or equivalent courses in the 2020 curriculum.

Even Semester

If the compulsory courses in the 2016 curriculum are removed and there is no equivalence in the 2020 syllabus, then for students who have passed these courses, they will count as compulsory courses in the calculation of the passing of SKS 144. Students who have not passed the course can take new compulsory or elective courses in the 2020 curriculum to complete 144 credits.

Syllabus Undergraduate Program in Naval Architecture and Marine

RELIGION ENME600004

BASIC PHYSICS 1 (MECHANIC & HEAT) ENGE600005

LAB EXP FOR BASIC PHYSICS ENGE600006

Introduction to drawing equipment; Basic definition of geometry, paper size, drawing arrangement, line, field, line configuration, basic geometric shape; Geometric visualization: oblique projection and isometric, function and line types, geometric configuration shape; Orthogonal projection: projection standard, viewing concept, wide display principle; Advanced orthogonal projection: circle areas concept, special areas concept, trim concept, display width, refraction.

LINEAR ALGEBRA ENGE600004

MPKT UIGE600006

ENGE600005

BASIC PHYSICS 2 (ELECTRIC, MAGNET, OPTIC AND WAVE)

LAB EXP FOR BASIC PHYSICS 2 ENGE600008

193Students are able to apply the basic concepts of electrical

This course introduces the basic concept of thermodynamics and its application in real life and gives the understanding of designing thermodynamic system. Stress and strain torsion (torque) and calculation of moment of inertia; axial force, shear force and bending moment; Calculation of reaction crossbar and diagrams, axial and moment diagrams; Analysis of stress and strain fields; Beams Deflection I; Beams Deflection II: Static; column; energy method; cylinder walls thick and thin; theory of plate; analysis of ship structures;.

195Fluid mechanics is a branch of applied mechanics used to inves-

The purpose of this course is for students to understand and apply the process and method (algorithm) for computer-based numerical engineering calculation and parameters that affect the speed and accuracy of the results. General procedures for testing hypotheses; Hypothesis test 1 sample with mean value: Hypothesis test 1 sample in variance, Hypothesis test 2 sample in variance, hypothesis test 2 sample with mean value, hypothesis test 2 sample in percentage, ANOVA objectives and procedures, ANOVA sample, ANOVA table; Regression: Basic concepts of simple linear regression analysis, Testing relationships and prediction intervals in linear regression analysis.

197hull arise, trim; free and unloading space estimates; watertight

SHIP POWER GENERATION ENMR606020

Students can understand the principles of power system of the ship including the current and future trends. Students are able to understand the concepts of ship investment financing and maritime insurance as one of the ways to control risk and the concept of financing and maritime investment feasibility.

HEALTH, SAFETY AND ENVIRONMENT ENGE600012

Functions of manual maintenance; Parts list and stock; Preparation of maintenance schedule: preparation of maintenance documents; Engine room maintenance, inventory maintenance: the role of engine builders Tips and tools: spare parts.

Special Subjects

Electives Subjects