Bachelor Degree

Bachelor of Engineering (Honours) Mechatronic

Mechatronics combines mechanical, electronic and software engineering in the design, development and control of diverse systems used in a range of industries including manufacturing, medicine and the service industries. Examples of mechatronics systems include aircraft, dishwashers, motor vehicles, automated manufacturing plants, robots of all types, and many others. Graduates are therefore involved in almost every possible industry at levels from applications development to manufacturing to advanced research.

Bachelor of Engineering (Honours) Mechatronic (4 Years)

Career Prospects:
Mechatronics Engineers Design & Development Engineers Service/Technical Support/Field Application Engineers Quality Assurance Engineers Instrumentation & Control Engineers Automation & System Integration Engineers Sales Engineers

This programme is designed to produce and develop graduates:

  1. Graduates are competent in the practice of Mechatronics field of engineering.
  2. Graduates are engaged in lifelong learning and professional development.
  3. Graduates are committed to professionalism in engineering practices and contribute to the society.

Upon completion of the programme, the graduates should be able to:

  1. Engineering Knowledge - Apply the knowledge and principles of Mechatronics engineering to solve practical complex engineering problems within the field of mechatronics engineering.
  2. Problem Analysis - Apply conceptual skill, analytical skills and critical thinking to analyse complex engineering problems and formulate technical solutions that may undertake design, development, manufacture, operation and maintenance in the application of mechatronics systems.
  3. Design/Development of Solutions - Employ system approach to develop an appropriate engineering solution for complex engineering problems with appropriate consideration for public safety and health, cultural, societal and environmental issues in mechatronics related application.
  4. Investigation - Apply the technical expertise through laboratory-based, project-based, research work activities to perform engineering techniques and procedures for complex egnineering problems in the field of mechatronics engineering.
  5. Modern Tool Usage - Use modern engineering tools to conduct complex engineering activities including computer programming, ICT software in analysing, modelling and simulation to provide appropriate engineering solution in mechatronics application.
  6. The Engineer and Society - Be responsible in their professional practice with regard to the social, cultural, legal, economic and global environment obligation.
  7. Environment and Sustainability - Apply the concept of sustainability development in engineering projects.
  8. Ethics - Practice engineering professionalism in line with their ethical responsibilities and awareness of the impact of their activities on society.
  9. Communication - Communicate effectively on complex engineering activities in written, visual representation and oral presentation on group capacity and effective as part of a multi-disciplinary work team.
  10. Individual and Team Work - Apply entrepreneurial, managerial, leadership and interpersonal skills to work effectively as an individual and at organizational level with the capacity of a leader and manager.
  11. Lifelong Learning - Be resourceful and able to use informational resources for effective decision making and engages in lifelong learning as key of their professional development.
  12. Project Management and Finance - Apply techniques and concepts of project management to execute engineering projects within the constraints of cost, budgets and other limited resources in project teams.
  • Engineering Mathematics
  • Engineering Mechanics / Theory of Machines
  • Engineering Drawing & CADD
  • Programming for Engineers
  • Engineering Materials
  • Thermodynamics
  • Electrical Circuit and Electrical Machines
  • Strength of Materials
  • Basic Electronics / Power Electronics and Drives
  • Control Systems Engineering
  • Engineering Design
  • Product Design & Development / Project Management
  • Computer-Aided Engineering / Finite Element Analysis
  • Industrial Control & Automation / Automation System Design
  • Digital and Analogue Electronics
  • Microprocessor Systems
  • Embeded Systems Engineering
  • Measurement & Instrumentation
  • CNC, Robotics Technology / Robotic Systems & Design
  • Exergy & Renewable Energy
  • Engineer and Society / Communication for Engineers
  • Networking Systems
  • Artificial Intelligence
  • Engineering Management / Engineering Economics
  • Project & Dissertation
  • Industrial Training
  • Capstore Project
             Credit: 142