PROFILE
The Bachelor Program of Telecommunication Engineering is a program that focuses on studying in the telecommunications field. The scope of the study includes the engineering aspects related to technologies, protocols, services, design, and engineering of broadband information delivery. The fields offered are Telecommunication Transmission (Transtel), Networking Cybernetics and Management of Engineering (NCM), and Information Signal Processing (PSI)
The study focuses on some capabilities, such as Telecommunication Engineering Study Program Able to design, build, operate and integrate network devices in the form of physical devices (for example routers, switches, firewalls) or logical devices (eg honeypots, docker, kubentes, SDN) Able to perform information signal processing (electrical and physical phenomena) in the form of videos and photos; Able to design and implement telecommunication transmission equipment; Able to design and implement modern algorithms into the telecommunication system; and Able to understand and design new regulations in the telecommunications sector.
Graduate Profile
A professional, competent, and independent Bachelor in Engineering in Telecommunication
A professional who is able to contribute actively to the advancement of the telecommunications sector, compete in the field of information and computer technology, adapt to new environments, and continuously able to develop their potential
CURRICULUM STRUCTURE
In the 2020 curriculum, to complete undergraduate education in the Undergraduate Study Program – Telecommunication Engineering, students need to take a minimum of 144 credits. The total credits are composed of 55 compulsory courses and 20 elective courses. Students are also asked to take 4 specialization courses out of the 20 specialization courses offered by the study program.
| Semester I | Semester II | Semester III | Semester IV | Semester V | Semester VI | Semester VII | Semester VIII |
| Pancasila | Religion and ethics | Telecommunication network | Data communication network | Data literacy | Entrepreneurship | Elective courses 1 | Elective courses 3 |
| Introduction to Telecommunication Engineering | Discrete math | Probability and statistics | Queue system | Cryptography and security protocol | Indonesian Language | Elective courses 2 | Elective courses 4 |
| Introduction to engineering and design | Matrix and space vector | Electrical circuit b | Electronics b | Communication system 1 | Communication system 2 | Wireless access communication | English |
| Calculus I | Calculus I | Complex variables | Continuous time signal processing | Pswd | Rf electronics | Final project proposal | Final project |
| Physics I A | Physics 2 A | Differential equations and applications | Electromagnetics | Telecommunications electromagnetics | Antenna and propagation | Project management | Citizenship |
| Biology | Algorithm and programming | Phyton programming | Digital engineering | Optical system | Microprocessor and IoT | Human literacy | |
| Character building | Algorithm and programming Practicum | Telecommunication engineering practicum | Telecommunication engineering practicum II | Object-based programming | Internship | General studies | |
| Physics practicum I | Physics Practicum 2 | Telecommunication engineering practicum III | Telecommunication engineering practicum IV |
