Vision


Creating graduates in the Electrical Engineering field as well as playing an active role in the development of science and technology, so that by 2030 it can become the leading Study Program in educating the nation to improve the quality of human life globally.

Mission


  • Develop an education system in the field of Electrical Engineering that has a strong and broad-based knowledge base.
  • Produce high-quality graduates and professionals in their fields of expertise, namely control systems, communication systems, electric power systems, and electronics and electronic and embedded systems.
  • Creating and developing science and technology, through innovative research activities, to enrich graduate competencies in global market competition.
  • Make a positive contribution to the community and the surrounding environment, through the transfer of science and technology, with benefits that can be felt directly by the community and the surrounding environment.

About the Study Program


Electrical engineering is a discipline that works with electronics and electrical technologies and is essential in all industries. As we all know, in today's world, our activities will be heavily reliant on equipment and devices related to electronics and technology. Electrical engineers work on various components, devices, and systems, from microchips to massive power plant turbines. They create computers, electronic devices, communication systems, test equipment, and power networks and enhance systems through problem-solving approaches. They conduct research and apply electricity, electronics, and electromagnetic physics and mathematics to large and small-scale systems for information processing and energy transmission. This is why electrical engineering is in high demand.

Focusing on the four concentrations above is a form of President University's electrical engineering dedication to prepare electrical engineering graduates with a solid scientific foundation, mastering their specialization, and having high skills and the ability to adapt to technological developments. They can produce valuable scientific work for the industry due to the active contribution of the academic, student, and industrial components. Furthermore, the study program skills and competencies contribution to society and the environment is an important aspect being addressed.

Aside from that, students will learn other skills, such as coding related to process control and automation, such as Arduino IDE, IoT, and PLC. The electrical engineering curriculum includes coding skills such as MATLAB, C, C++, and Python. Consequently, electrical engineering graduates may work in the machine learning, data science, and software engineering sectors.

Professional Outcomess


Electrical engineering is a discipline that works with electronics and electrical technologies and is essential in all industries. As we all know, in today's world, our activities will be heavily reliant on equipment and devices related to electronics and technology. Electrical engineers work on various components, devices, and systems, from microchips to massive power plant turbines. They create computers, electronic devices, communication systems, test equipment, and power networks and enhance systems through problem-solving approaches. They conduct research and apply electricity, electronics, and electromagnetic physics and mathematics to large and small-scale systems for information processing and energy transmission. This is why electrical engineering is in high demand.

Focusing on the four concentrations above is a form of President University's electrical engineering dedication to prepare electrical engineering graduates with a solid scientific foundation, mastering their specialization, and having high skills and the ability to adapt to technological developments. They can produce valuable scientific work for the industry due to the active contribution of the academic, student, and industrial components. Furthermore, the study program skills and competencies contribution to society and the environment is an important aspect being addressed.

Aside from that, students will learn other skills, such as coding related to process control and automation, such as Arduino IDE, IoT, and PLC. The electrical engineering curriculum includes coding skills such as MATLAB, C, C++, and Python. Consequently, electrical engineering graduates may work in the machine learning, data science, and software engineering sectors.


Professional Outcomes

  • Electronics Engineer

  • Production Engineer

  • Control and Instrumentation Engineer

  • Telecommunication Analyst

  • Engineering Consultant

  • Researcher

Program Leader


Mia Galina, ST. MT


News


Data is not available.