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The International undergraduate program in the Faculty of Engineering Universitas Indonesia (FTUI) is a furtherance of high quality education to produce engineering graduates with abilities to compete internationally by providing students with the opportunity to experience an international education at a relatively lower cost. Students will also benefit from the international exposure they will receive not only in diversity of culture and language but also in establishing international networking. Currently FTUI held two programs of international undergraduate, the joint degree and the single degree program for seven study programs.
The undergraduate international single degree program was launched in 2011 as a result of an increasing demand to provide an international quality education locally. Students in this program are not obligated to continue their last four semester of study at one of our partner universities like their classmates who wishes to pursue a double degree. However, students of single degree program are required to do Study Abroad for a period between one to four semesters at an overseas university. The aims are to widen the international perspective of the students, to have experience to study in an overseas university, to enhance language capability, to enhance cross-cultural adaptability.
Accreditation:
Admission Schedule
| Admission | Schedule | |
|---|---|---|
| By Invitation | Talent Scouting | February-March |
| By Test | SIMAK UI | May-June |
Fast Track Scheme
FT UI students with brilliant academic achievements can participate in the Fast Track program. In this program, FTUI’s undergraduate students in semesters 7 & 8 are allowed to take several Master program courses. Courses that can be taken and other requirements are specified by the Study Program in a way that the students can directly pursue Master program in FTUI and complete the program in 1 year. Thus, the total time needed to complete both undergraduate and master programs is 5 years.
This Undergraduate International Program gave the students the opportunity to have an international standard engineering education with a relatively cheaper cost than going abroad for the whole undergraduate program.
Civil Engineering focusing on planning, design, construction, and maintenance of the world’s infrastructure, Civil Engineering is not just an applied- science but relates to real-life problem solving which affects the quality of life in society. Works that need the expertise of civil engineering variables such as bridges, buildings and structures, power plants, seaports, and sea transportation channels, piping, roads, airports, transportation systems, dams, drainage systems, solid and liquid waste management systems, and other uses.
Graduate profile: A professional/responsible Bachelor Engineer who is capable of designing civil engineering infrastructures by considering social, economic, and environmental aspects.
Mechanical Engineering focuses on mechanics, design, materials, manufacturing, thermo fluids, tribology, and engineering thinking engineers with strong fundamental engineering competence to analyze and synthesize mechanical characteristics, design and plan machines, mechanical devices, and manage installations and production of machines. Many graduates find employment as designers, consultants, or project managers in industries associated with the use of natural resources, including defense, power generation, oil refineries, mining and manufacturing plants, petroleum and gas, and other institutions.
Graduate profile: Able to design and analyze elements and systems in the field of mechanical engineering.
Electrical Engineering provides a broad technical education and develops students’ fundamental skills in electrical, and electronics. Graduates are expected to be capable of analyzing and solving problems in the field of electrical, control, electronics, telecommunications, and power engineering systems, which are highly qualified to work in the telecommunication industry, information technology industry, electronics, and power industry sectors.
Graduate profile: Able to design hardware and software as a solution to problems in the electrical field.
Metallurgical & Materials Engineering aims to produce graduates who can select, process, and control the properties of materials for given applications. Graduates will find themselves in a wide range of job opportunities such as materials, production, and fabrication, public utilities, research and development, consultancy and design, education, technical sales and marketing, including troubleshooting production problems for a major manufacturer.
Graduate profile: Able to design metallurgical and materials environmentally friendly processes and analyze material degradation.
Architecture produces graduates who have strong basic knowledge of architecture and its application, with the ability to apply responsive and environmentally friendly architecture design methods. Graduates of Architecture have the opportunity to work anywhere in the world from general practice or specialize in commercial, industrial or institutional developments, historic building conservation, or housing renovation.
Graduate profile: Able to design architectural designs that pay attention to local needs and wisdom.
Chemical Engineering provides a high-quality basic education in chemical engineering fundamentals to develop the skill required to apply these fundamentals to chemical engineering, processes, and systems whilst fostering a student’s personal development. Chemical Engineering aims to produce highly competent chemical engineering graduates who are knowledgeable in basic chemical engineering before getting access to the field of chemical process technology.
Graduate profile: Able to apply chemical engineering principles by considering various aspects.
Industrial Engineering focuses on the design, improvement and installation of integrated systems of people, materials, information, equipment and energy, to specify, predict, and evaluate the results to be obtained from such systems. Industrial Engineering Graduates have job opportunities in various service and manufacturing industries, government and private companies. The service industry includes financial institutions, consulting services, information technology services, community services, and others.
Graduate profile: Able to design, improve, operate, and maintain integrated manufacturing and service systems.
Bioprocess Engineering produces graduates who have contribute to the field of bioprocess engineering by applying bioprocess engineering principles with careful consideration of the engineering, economic, social, health and safety, energy, environment, sustainability, and ethical aspects; providing broad and fair access, as well as quality education and teaching in Bioprocess Engineering
Graduate profile: Able to contribute to the field of bioprocess engineering by applying bioprocess engineering principles with careful consideration of the engineering, economic, social, health and safety, energy, environment, sustainability, and ethical aspects
Naval Architecture and Marine Engineering to conduct research and research-based education for the development of science and technology in the field of Naval Architecture and Marine Engineering, and to conduct research and education and use it to improve quality life and humanity. Contribute to the development of science and technology in the field of Naval Architecture and Marine Engineering through continuous research.
Graduate profile: Able to analyze and design of ship buildings, marine systems, and marine transportation, with considering an aspect of energy conservation to meet the sustainable development goals.
Students will be awarded a bachelor’s degree from UI (Sarjana Teknik or Sarjana Arsitektur). Students in this program are required to spend at least one semester overseas under the scheme of student exchange in UI partner universities or fee-paying study abroad.
Transfer requirements:
Eligible students are allowed to continue their study to our partner university to continue towards their degree there if the students fulfill the following requirements:
PARTNER UNIVERSITIES
| Study Program | of Technology | |||
|---|---|---|---|---|
| Civil Eng. |  | | | |
| Mechanical Eng. | | | | |
| Electrical Eng. | | | ||
| Metallurgical & Material Eng. | | |
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| Architecture | | | |
|
| Chemical Eng. | | | | |
| Industrial Eng. | | |||
| Bioprocess Eng. | | | ||
| Naval Arch. & Marine Eng. | ||||
| Environmental Eng. | | |||
| Computer Eng. | |
| Study Program | ||||
|---|---|---|---|---|
| Civil Eng. | | |||
| Mechanical Eng. | | | ||
| Electrical Eng. | | |||
| Metallurgical & Material Eng. | | |||
| Chemical Eng. | | |||
| Industrial Eng. | |
|||
| Naval Arch. & Marine Eng. | |
| Study Program | |
|---|---|
| Electrical Eng. | |
| Metallurgical & Material Eng. | |
| Study Program | |
|---|---|
| Civil Eng. | |
| Chemical Eng. | |