The Bachelor of Information Systems (Honours) (Data Analytics) programme focuses on the development of analytical skills in the study of technologies. Harnessing and analysing massive data creates significant value for organisations and it has become the basis for decision-making to achieve greater efficiency while spearheading constant innovation. During their studies, students will solve practical and real-world problems of companies utilising data sets in the presence of analytics experts.
Intakes: February, April, September
Full-time: 3 Years
This programme aims to equip you with the technical knowledge to keep abreast with the rapid advances in technology, and to develop your analytical skills. Students undertaking this programme are exposed to both technical and real-world practical experiences through the specially-crafted coursework and industrial training, making our graduates market-ready upon graduation.
Intakes: February, April, September
Full-time: 3 Years
Organisations depend on their information networks for mission-critical operations. Highly trained networking professionals are needed to ensure these infrastructures are resilient and operational. Threats towards networks are ever increasing and rapidly evolving. The security policies that are developed must be able to ensure accurate evaluation of internet traffic, to appropriately filter malicious users.
Intakes: February, April, September
Full-time: 3 Years
The world is moving towards the Artificial Intelligence (AI) era. One of the essential technologies that powers the AI era is the Internet of Things (IoT). This course presents to the participants the fundamentals and broad understanding in IoT and its applications.
The Mechanical Engineering programme is a modern, project-based degree which aims to produce graduates who address the Grand Challenges for Engineering and the UNSDGs. As a project-based degree, our students will Conceive-Design-Implement-Operate at least 4 engineering systems (or projects) throughout their degree, with at least 2 of such projects being based on real-life industry challenges. Their projects will address the Grand Challenges and the UNSDGs.
Intakes: February, April, September
Full-time: 4 Years
Mechatronic Engineering (Robotics) programme focuses on the integration of mechanical, electronic and computer control, which addresses the engineering needs of Industry 4.0. This programme is also structured for specialisation in robotics engineering.
Intakes: February, April, September
Full-time: 4 Years
This subject introduces students to fundamental concepts in mathematics and statistics which are necessary in computer science and software engineering. Students will be able to cover equations, functions, graphs, series, differentiation, integration, probability, and data descriptions.
This course aims to provide students with a basic understanding of networking terms and the skills to be able to plan and set up the network infrastructure for homes and small businesses. The topics include basic concepts and technologies of transmission and communication, networking hardware, standards, networking topologies, protocols, and network design processes.
This subject charts a general overview of the basic ideas and the fundamental concepts of Object-Oriented Programming. Students will learn problem-solving skills and appreciate the significance of Object-Oriented Programming.
A learn-by-doing course using design thinking and entrepreneurship methodology. In this course, students will develop a “growth mindsetâ€, which includes problem solving skills and the creation of feasible solutions to problem statements that have significant economic value and/or meaningful impact on society. Students will be working in teams on real life industry challenges by building prototype solutions and pitching them to a panel of industry experts and investors.
Software systems have become the cornerstone of all modern businesses. These systems are often complex yet must be robust and adaptable. This programme will equip you with the knowledge and understanding of user requirements in analysing, modelling, designing, and developing large-scale software systems that are reliable and robust. Such Software Engineering (SE) specialists will be able to respond to the ever growing impact of large-scale software systems in a wide range of situations, as well as to the increased importance in safety-critical and mission-critical applications.
Intakes: February, April, September
Full-time: 3 Years
This novel PhD programme aims to produce leaders in academia and industry through its multi-disciplinary approach to sustainability. Graduates will be equipped with quantitative and qualitative analytical skills necessary to formulate and champion technological solutions to global sustainability issues.
Intakes: Rolling Intake
Full-time: 3 Years
Part-time: 4 Years