I. General Information
Major code: 7480108UA
Training level: Undergraduate
Graduation Degree: Engineer
Training duration: 4.5 years (9 semesters)
Graduation requirements: Students are considered for graduation recognition when meeting all the following conditions:
- Accumulate a sufficient number of courses and curriculum volume of the training program;
- The cumulative grade point average (CPA) of the entire course reaches 2.0 or higher;
- Achieve foreign language proficiency level 4 according to the 6-level Foreign Language Proficiency Framework for Vietnam;
- Possess certificates in National Defense - Security Education and Physical Education;
- Not being prosecuted for criminal liability or not currently under disciplinary action at the level of academic suspension.
II. Admission Combinations
Combination based on High School Exam scores & High School Academic Results (Academic transcripts):
- A00: Mathematics - Physics - Chemistry
- A01: Mathematics - Physics - English
- D01: Mathematics - English - Literature
- D07: Mathematics - English - Chemistry
- X06: Mathematics - Physics - Computer Science
- X26: Mathematics - English - Computer Science
III. Program Objectives and Expected Learning Outcomes
1. Objectives
Training engineers in Computer Engineering Technology – Unmanned Aerial Vehicle major who possess political qualities, ethics, professional responsibility, and a sense of community service; possessing knowledge, professional practice skills, and research capacity commensurate with the training level; possessing good health, well-meeting labor demands in the period of international integration and the Fourth Industrial Revolution.
Vietnam - Korea University of Information and Communications Technology, The University of Danang trains Unmanned Aerial Vehicle Engineers (Note: The original text contains a typo mentioning Semiconductor IC Packaging and Testing Engineers here, but the context establishes Unmanned Aerial Vehicle Engineers) who:
- PO1: Have good ethics to work and be useful to the community;
- PO2: Have skills for independent work, teamwork, and using foreign languages to serve learning and professional development;
- PO3: Have basic knowledge of natural sciences and social sciences, as well as comprehensive, deep, and advanced knowledge in the field of Computer Engineering Technology;
- PO4: Have the ability to research, solve problems, and provide expert conclusions in the field of Computer Engineering Technology.
2. Expected Learning Outcomes
Graduates of the Computer Engineering Technology training program – Unmanned Aerial Vehicle major have the ability to:
- PLO1. Have the ability to perceive ethics and professional and community responsibility;
- PI1.1 Be honest in work.
- PI1.2 Possess a sense of responsibility toward work.
- PI1.3 Comply with technical regulations, processes, and safety rules in work.
- PLO2. Communicate and work in teams effectively;
- PI2.1 Present and deliver presentations (in Vietnamese) on issues effectively.
- PI2.2 Draft documents and reports (in Vietnamese) with structures complying with regulations.
- PI2.3 Work in teams effectively.
- PLO3. Possess critical thinking, creative thinking, and entrepreneurial spirit;
- PI3.1 Have the capacity to critique the opinions of others.
- PI3.2 Propose information technology and computer engineering technology solutions that meet practical requirements.
- PI3.3 Build a startup project proposal.
- PLO4. Have the ability to use foreign languages in communication and in the field of Computer Engineering Technology;
- PI4.1 Use foreign languages to present issues in the field of Computer Engineering Technology.
- PI4.2 Have the ability to use foreign languages in communication.
- PLO5. Apply knowledge of natural sciences, social sciences, computer science, and Computer Engineering Technology to solve basic problems;
- PI5.1 Apply knowledge of natural sciences, computer science, and Computer Engineering Technology to solve basic problems.
- PI5.2 Apply knowledge of social sciences into practical work.
- PLO6. Possess foundational knowledge and skills regarding unmanned aerial vehicle systems;
- PI6.1 Possess foundational knowledge regarding embedded system hardware and software serving UAVs.
- PI6.2 Possess knowledge regarding sensors, positioning, and data processing/fusion in UAVs.
- PI6.3 Possess knowledge regarding flight control systems and connectivity communication between UAVs and ground control stations.
- PLO7. Have the ability to design, build, and deploy UAV-related products and solutions that meet practical requirements;
- PI7.1 Have the ability to proficiently use languages, programming tools, and specialized software in the field of UAVs and embedded systems.
- PI7.2 Have the ability to propose ideas, calculate, and design the integration of hardware, embedded software, sensors, and communication for UAV systems according to set requirements.
- PI7.3 Have the ability to deploy, integrate, and operationally test UAV systems according to mission scenarios; evaluate results based on measured/recorded data.
- PLO8. Have the ability to test, evaluate, diagnose, and propose solutions to upgrade and troubleshoot issues regarding UAV systems;
- PI8.1 Have the ability to plan and perform UAV system testing according to evaluation criteria.
- PI8.2 Have the ability to diagnose and handle incidents related to electronic circuits, sensors, communication, and embedded software; propose alternative and improved solutions.
- PI8.3 Have the ability to evaluate and apply safety requirements in UAV operations and comply with technical processes.
IV. Employment Opportunities and Postgraduate Study Capability
1. Employment Opportunities
Graduates from the Computer Engineering Technology training program can perform tasks such as:
- Engineers for programming embedded software on mobile devices, industrial systems, automobiles, household electronics, smart homes, smart agriculture, smart homes, information cities, and unmanned aerial vehicles.
- Engineers for designing and developing hardware systems, chips, microchips, electrical-electronic circuits, control circuits, IoT application software, machine learning, data processing, and other related fields.
- Information technology engineers in general within agencies and enterprises specializing or not specializing in information technology.
2. Postgraduate Study Capability
Possess foundational knowledge in the Computer Engineering Technology major to develop new knowledge and be able to continue studying at the master's and doctoral levels in Computer Engineering Technology, Information Technology, Electronic Engineering, Semiconductor Technology, and other closely related majors.