On behalf of the Faculty of Engineering Universitas Indonesia, I would like to extend our warmest welcome to all students joining us this year. And so the history of the Faculty of Engineering Universitas Indonesia began with the first three study programs with the respective head of the study programs: Ir.

UI and FTUI Administration UI

PROFILE OF FTUI AND DEP

Chit Chiow (Andy) Tan, School of Mechanical, Manufacturing and Medical Engineering, Queensland University of Technology, Australia, Mechanical Engineering Prof. Kyoo-Ho Kim, Dr.Eng, School of Material Science and Engineering, Yeungnam University, Korea, Nanomaterial and Energi Prof.

51.4. ACADEMIC PROGRAMS AT FTUI

GENERAL

VISION , MISSIONS and OBjECTIVES OF CIVIL ENGINEERING DEPARTMENT – FTUI

STAFFS OF THE DEPARTMENT OF CIVIL ENGINEERING

Ayomi Dita Rarasati, ayomi@eng.ui.ac.id (ST, MT, UI; PhD Candidate, QUT Australia) Construction Management; Project management. Toha Saleh, toha@eng.ui.ac.id (ST, UI; MA, University of Surrey; PhD Candidate, UI) Water Resources Management.

ELECTRICAL ENGINEERING STAFFS Head of Department

In accordance with the idea, on November 5, 2002, the rector of Universitas Indonesia then ordered the Department of Metallurgy and Materials Engineering as one of the departments within the Faculty of Engineering. Within the metallurgy and materials engineering courses, students gain a foundation in the major areas of metallurgy and materials science and the major classes of engineering materials used in courses on material properties and selection, computational methods, and capstone design. of course.

MATERIALS ENGINEERING Vision

Considering the high demand to produce qualified graduates and following current trends towards the global competition, the Department of Metallurgy and Materials Engineering is committed to continuously improve its academic activities, including teaching and learning process as well as research activities. As part of the national education system, which aims to develop the intellectual life of the nation through human resource development by carrying out three main activities known as tridharma ("three duties"), the department is also committed to carrying out higher level education. , to conduct scientific research, and to provide community services.

STAFF OF THE DEPARTMENT OF METAL- LURGY & MATERIALS ENGINEERING

At the beginning of the first semester, 426 undergraduate students, 71 master's students and 24 doctoral students are active in the department.

HEAD OF LABORATORY

BOARD OF PROFESSORS

FULL-TIME FACULTY

Myrna Ariati Mochtar, myrna@metal.ui.ac.id (Ir, UI ; MS, UI; Dr, UI), Thermo-mechanical treatment and powder metallurgy. Sri Harjanto, harjanto@metal.ui.ac.id (Ir, UI, Dr. Eng, Tohoku University – Japan), Chemical Synthesis of Materials, Mineral.

STUDY PROGRAM

DEPARTMENT OF ARCHITECTURE GENERAL

Rini Riastuti, riastuti@metal.ui.ac.id (Ir, UI ; M.Sc, Institute of Science and Technology, University of Manchester, PhD, UI), Electrochemistry. More profiles of the FTUI Architecture Department can be viewed virtually on the website: http://architecture.ui.ac.id.

VISION AND MISION OF DEPARTMENT OF ARCHITECTURE – FTUI

Nanda Widyarta

MSi, Environmental Sciences Universitas Indonesia) Structural and Materials Technology, Architectural Design, Urban Ecology Rossa Turpuk Gabe Simatupang. Master of International Policy and Practice George Washington University, USA) Architectural Design, Sustainability in Architecture Embun Kenyowati.

Boy Nurtjahyo

• DEPARTMENT OF CHEMICAL ENGINEERING

The chemical engineering department offers five academic programs: bachelor's degree (regular, parallel, international), master's degree (regular and gas management at Salemba campus) and doctoral program. The chemical engineering department holds international classes in collaboration with three Australian universities: Monash University, Curtin University and the University of Queensland.

STAFF OF THE DEPARTMENT OF CHEMICAL ENGINEERING

Praswasti PDK Wulan wulan@che.ui.ac.id (Ir, UI; . MT, UI; Dr, UI): Sustainable energy. Tilani Hamid tilanihs@che.ui.ac.id (Ir, ITB; M.Si, UI): Materials and Corrosion Science.

VISION AND MISSION OF THE DEPARTMENT OF INDUSTRIAL

GENERAL

An SKS of an academic activity in the form of lectures or seminars is equivalent to the student's effort in at least three hours per week for one semester, consisting of 50 minutes of planned academic interaction, 1-2 hours of structured activities such as feedback or the problem. solutions and 1-2 hours of independent activities such as reading reference books. Undergraduate students with an average study load of approximately 18-20 credits per semester are expected to undergo a minimum of 18-20 hours per week of scheduled interaction with a lecturer, 18-20.

ACADEMIC SYSTEM AND REGULATION

• ADMINISTRATIVE AND ACADEMIC REGISTRATION
• GRADUATE PREDICATE
• ACADEMIC PERFORMANCE EVALUATION AND DROPOUT
• ACADEMIC LEAVE
• FACULTY and DEPARTMENT jUDISIUMS
• SEMESTER GRADE TRANSCRIPT, DIPLOMA and ACADEMIC

Dissertation is a report of the results of research activities in the form of scientific writing. The thesis that has been considered for examination must be submitted to the Department to be listed in the examination schedule determined by the Head of the Study Programme.

Table 2.1. Grade Value and Points

TRANSCRIPTS

• OFFENSES AND SANCTIONS
• ACADEMIC REGULATION OF THE UNIVERSITAS INDONESIA
• INTEGRATED STUDENTS SERVICE BUILDING (PPMT)
• FACULTY ADMINISTRATION CENTER (PAF)
• UNIVERSITY CENTRAL LIBRARY Location : Kampus UI Depok
• FACILITIES AND CAMPUS LIFE

Decree of the Rector of Universitas Indonesia Number: 450A/SK/R/UI/2006 regarding the registration of students at Universitas Indonesia. Decree of the Rector of Universitas Indonesia, number: 2199/SK/R/UI/2013 on the implementation of the master's program in Universitas Indonesia.

NETWORK

STUDENT WELFARE

• UNIVERSITAS INDONESIA MOSQUES
• TEKSAS BRIDGE
• CAMPUS BUS
• STUDENT WELFARE AND FACILITY BUILDING (GKFM) /
• UI STUDENT DORMITORY Location : UI Campus, Depok
• WISMA MAKARA

The Texas Bridge is a connecting bridge between two faculties in the UI Depok campus, the Faculty of Engineering and the Faculty of Humanities. This building is located in front of the Faculty of Engineering in UI Campus Depok.

PUSGIWA) Location : UI Campus Depok

• UI STUDENTS HALL Location : UI Salemba Campus
• SPORT FACILITIES A. Stadium
• BIKE TO CAMPUS
• STUDENT ORGANIZATION
• NATIONAL STUDENT SCIENCE WEEK The National Student Science Week (Pekan

The requirements to become a member of the DPM UI are regulated within the IKM UI laws. Below are some of the Student Activity Programs competing in National Student Science Week.

553.9. SCHOLARSHIP

• INSURANCE
• GENERAL INFORMATION Post Office, Depok Campus
• INTERNATIONAL jOURNAL OF TECHNOLOGY
• QUALITY IN RESEARCH (QiR) CONFERENCE

Students may send their inquiries regarding any matters not mentioned here directly to the Universitas Indonesia Head of Student Welfare Subdirectorate at the Central Administration Building, Universitas Indonesia Campus, Depok. A notification letter from the deputy dean of Student Affairs of the faculty to the Directorate of Student Affairs.

593.14. INTERNATIONAL OFFICE

UNDERGRADUATE PROGRAM IN CIVIL ENGINEERING Program Specification

UNDERGRADUATE PROGRAM

REGULAR/PARALLEL/INTERNATIONAL)

Entry

Study Duration Designed for 4 years

Graduate Profiles

Expected Learning Outcomes

Learning Objectives: Students are expected to understand the use of soil parameters in relation to the calculation of soil strength and stability for construction/simple civil engineering. Learning Objectives: Students are expected to understand the use of soil parameters in relation to the calculation of soil strength and stability for simple civil engineering structures/buildings.

1 0011 ADVANCED CHEMISTRY

Syllabus: Introduction to problem formulation and finding the solutions of civil engineering problems, introduction to the quantitative tools for planning and management of civil engineering systems.

0 0013 DYNAMICS

• Mechanics and design, 3rd edition, Prentice Hall, 1997

Learning Objectives: After attending this class, students will understand design concepts, structural loads, structural systems, and be able to design reinforced concrete structural members according to design procedures and standards. Structural systems for concrete structures; Materials and cutting properties of reinforced Prerequisites: Material properties, Mechanics of solids.

1 0201 SOIL MECHANICS (2+1)

1 0301 PAVEMENT DESIGN

Curriculum: Different dimensions of the transport system (people, goods; single line, intermodal; . urban, national, regional, global; strategic, tactical, real-time; public transport, private vehicles, combination; supply, demand, balance; level of service, costs; land use, transport, environment; nodes, connection, network); transport system components; phase of the transport system;.

1 0401 WATER ENGINEERING 1

To understand fundamentals of soil mechanics 1. required in analysis and design of deep foundations and deep retaining structures To analyze and design deep foundations 2. e.g. driven piles, bored piles) and to understand construction aspects of these types of geotechnical structures. Analysis and Design of Shallow and Deep Foundations, John Wiley & Sons, Inc., Hoboken, USA.

1 0402 WATER ENGINEERING 2

Students are able to (1) prepare a research proposal based on a sound understanding of research methodology, (2) prepare a well-written research report (in Bahasa Indonesia), and (3) present and defend research results. Learning objectives: Students should be able to analyze 2D/3D spatial structures using the computer-aided method of forces and deflections (matrix method).

0 0405 RAIN MANAGEMENT

• Programme Tittle Undergraduate Program in Environmental Engineering
• Final Award Sarjana Teknik (S.T)

A bachelor of engineering capable of designing system and infrastructure of environmental engineering to improve environmental quality and to protect people from environmental degradation. Apply BEMS to predict and determine fate and transport of substances in and between air, water 9.

Program Specification

UNDERGRADUATE PROGRAM IN ENVIRONMENTAL ENGINEERING

Design of a system, component or process to meet desired needs related to a problem appropriate for environmental engineering (EE7). Analyze and propose solutions to globalization and other contemporary issues critical to environmental engineering (EE-11) 14.

0 0007 SURVEYING

Learning objectives: The student is expected to be able to plan the construction system and dimensions of a domestic sewage treatment plant. Learning objectives: Students are expected to be able to plan the building system and dimensions in the city's sewage treatment plant, project/plan the pipe network.

0 0102 AIR POLLUTION

Syllabus: Epidemiology study and the interaction of human activities with environment and its impact on human and environmental health; to know the various agents in the environment that can potentially cause health problems, as well as the technical efforts of prevention and control. To then discuss the principles and application of environment-based disease surveillance; physical, chemical and biological environmental factors in the media.

1094.3. UNDERGRADUATE PROGRAM IN MECHANICAL ENGINEERING

Able to understand and apply the basic knowledge of mathematics, numerical methods, statistical analysis and basic sciences (physics and chemistry) necessary to achieve competence in the discipline of Mechanical Engineering. The basic structure of the Mechanical Engineering University Program shows the category and relationship between the subjects in the outline.

Basic Courses

Students of the mechanical engineering study program must complete 144 credit units before completing the undergraduate study program in mechanical engineering: university courses (18 credit units), basic mechanical engineering courses (30 credit units), basic mechanical engineering courses (44 credit units), basic mechanical engineering courses (40 credit units ), which consist of compulsory basic courses (24 credit units) and an optional basic course (16 credit units), and 12 credit units consist of a design project, practice and an undergraduate thesis. Basic mechanical engineering electives aimed at increasing ability and competence specifically in the field of mechanical engineering to obtain more specific competence or in a field with a broader knowledge of mechanical engineering.

114 The groups of the courses can be seen according to the char acteristic and the education purposes that are expected as shown in figure below

Electives can be taken from other department or selected from the Master Program, please

Engineering materials is one of the basic knowledge in the field of design, especially in mechanical engineering. The students have the ability to understand the key concept of kinematics and dynamics of mechanical system and able to analyze the motion, velocity, acceleration force and equilibrium.

Table 6. Course Structure of Mechanical Engineering at QUT + Semester 5 s/d 8Basic Courses

1 0024 ENGINEERING ETHICS

• UNDERGRADUATE PROGRAM IN NAVAL ARCHITECTURE AND MARINE ENGINEERING Program Specification
• Programme Tittle Undergraduate Program in Naval Architecture and Marine Engineering
• List of Graduates Competency

The Shipbuilding and Marine Engineering study program was developed with the aim of: producing graduates who have an attitude of leadership and excellence in learning and professionalism, who have the ability to analyze and synthesize the characteristics of shipbuilding technology, which includes the design and planning process. and ship's mechanical systems, as well as the management of the ship's installation and production systems, and were able to analyze and solve any scientific problem, work in groups, and be able to develop themselves and their knowledge. The curriculum has been designed and developed in such a way that the learning process is capable of producing graduates who are competent in the field of shipbuilding and marine engineering with characteristics in accordance with the purpose of education, i.e.

Basic Courses Specialization of Marine Engineering Courses (38 credits)

• II, FTUI. 1998
• 0 0007 TERMOFLUIDS (4 SKS)
• FTUI 1998
• 0 0015 SHIP VIBRATION (2 SKS)
• 00025 CAPITA SELECTA

Foil form; Theory of ship motion; Plan management: Dynamic stability: Theory of stationary and non-stationary motion of a ship; Calculation of critical conditions due to shaking ship;. Misunderstood concept and types of air conditioning, auxiliary system, tribology and cooling system for marine engines.

ELECTIVE COURSES FROM MASTER PROGRAM

Calculation and selection of the number and capacity of Genset & Shore Connection: calculation and selection of battery capacity;. Diagrams Psychrometrics, piping system design, heating system design, ventilation system design, air conditioning and refrigeration system design, technical specifications and troubleshooting, ISO standards and grade.

1474.5. UNDERGRADUATE PROGRAM IN ELECTRICAL ENGINEERING

Accreditation / Recognition BAN-PT: A accredited AUN-QA

Language(s) of Instruction Bahasa Indonesia and English 8. Study Scheme (Full Time / Part

Able to plan, analyze, design and combine energy technology and electrical energy technology. Able to use microcontrollers for electrical problems. Able to follow advances in energy and electrical engineering. Able to identify the needs of electrical power systems and electronic components.

Total 144

153Table 2. Majoring Course

Learning Objectives: At the end of this course, students are expected to be able to understand the principle of electronic devices. Learning Objectives: At the end of this course, students are expected to be able to implement Maxwell Law 1, 2, 3 and 4.

Table 3. Elective Course

MAjORING TELECOMMUNICATION ENGINEERING

Learning objectives: Students are expected to be able to explain wire/fiber optic transmission media and their working principles; to analyze the performance of optical communication systems. Learning Objectives: Students are expected to be able to keep up to date with the latest telecommunications technologies, businesses and regulations.

MAjOR

ELECTRICAL POWER ENGINEERING

This one-semester course is designed to teach electrical engineering students about electricity generation in a variety of fossil or non-fossil power plants. Learning Objectives: This one-semester course is designed to teach electrical engineering students about the transmission and distribution of electrical energy in a practical, down-to-earth manner.

ELECTRONICS ENGINEERING

Learning Objectives: This course provides the student with a general overview of solar cell technology and their fabrication. Learning objectives: This course gives the student a general overview and provides a basis for the analysis and design of optical and opto-electrotechnical measurements.

CONTROL ENGINEERING

Learning Objectives: Understand how to control an electric drive system, power transfer circuit (3-phase PWM inverter), servo motor DC brushless, position and speed control, speed sensorless control, creating software in electric drive system. Learning objectives: to expand students' knowledge and introduce the development of control technology today and its application in society and industry.

1834.6. UNDERGRADUATE PROGRAM IN COMPUTER ENGINEERING

Programme Tittle Undergraduate Program in Computer Engineering

Accreditation / Recognition BAN-PT: B - accredited AUN-QA

Language(s) of Instruction Bahasa Indonesia and English 8. Study Scheme (Full Time / Part Time) Full Time

185Bachelor of Engineering who has the capability to engineer information networks and embedded systems with the

Learning Outcomes Flow Diagram

Syllabus: Introduction to Computer Science, Introduction to Computer Hardware, Introduction to Computer Software, Algorithm, Pseudocode, Introduction to C, Programming in C, Structured Program Development in C. Syllabus: Introduction to Electronic Circuits with Diodes and Transistors, Basic principle of FET, JFET, MOSFET, MESFET, VMOS and CMOS, Zenner diode and LED, application of diode circuits, voltage and current amplifier circuit.