Introduction
This course is essential to Industry 4.0. The objectives of the course are to familiarize the learners with a basics of smart optics sensors and how they can be applied in Smart optical manufacturing with the following objectives:
1. Understand the potential role played by lasers in 3D printing;
2. Exposure to the underlying principle behind laser assisted manufacturing;
3. Give basic understanding of involved optics in 3D printing and multi-dimensional machining and;
4. Give overall impact of Laser assisted machining and 3D printing in 4th industrial revolution.
- Graduate Certificate in Engineering Optics and Photonics
- FlexiMasters in Engineering Optics and Photonics
Download Learning Pathway e-Guide
Upon completion of this course, learners should be able to:
1. Understand the fundamentals of optical sensing;
2. Gain knowledge of a wide spectrum of laser and interferometric based sensors;
3. Select sensors for advanced manufacturing applications and;
4. Understand Industry 4.0, role of sensors and its impact on future manufacturing.
To meet the requirement of SkillsFuture Singapore, assessment(s) will be conducted during every course. The assessment(s) include:
- Quizzes
Suitable to learners from all disciplines who seek to have in-depth understanding of photonics and engineering optics and their impact in current industries and for Industry 4.0 (I 4.0).
Standard Course Fee: S$817.50
SSG Funding Support | Course fee | Course fee payable after SSG funding, if eligible under various schemes | |
BEFORE funding & GST | AFTER funding & 9% GST | ||
Singapore Citizens (SCs) and Permanent Residents (PRs) (Up to 70% funding) | S$750 | S$245.25 | |
Enhanced Training Support for SMEs (ETSS) | S$95.25 | ||
SCs aged ≥ 40 years old |
- Standard course fee is inclusive of GST.
- NTU/NIE alumni may utilise their $1,600 Alumni Course Credits. Click here for more information.
COURSE TITLE | ACADEMIC UNIT |
CET824 Basic Optical Engineering | 2 |
CET825 Fibre Lasers for Various Industry Applications | 1 |
CET826 Understanding Fibre Optic Distributed Network for IoT Infrastructure | 1 |
CET827 Fibre based Components for High Speed IoT Applications | 1 |
CET828 Understanding the Principles, Structures, Packaging, Installation and Signal Processing of Optical Fibre Sensing Technology | 1 |
CET829 Engineering Metrology | 1 |
CET830 Optical Fibre Design and Fabrication for High Power Laser and Telecommunication Applications | 1 |
CET831Lasers and Optics for Smart Manufacturing (I 4.0)- Current Practices and Future Prospects | 1 |
CET832 Laser Manufacturing Processes | 2 |
CET833 Organic Light Emitting Diode Technology for Flat Panel Information Displays | 1 |
CET834 Understanding of basic device structure and operating principles of displays and LEDs | 1 |
CET836 Smart Optical Sensors for Smart Manufacturing | 0.5 |
CET765 Lithography Processes for Next Generation of Nano Scale Smart Devices | 1 |
CET837 Bio-imaging | 1 |
Listed courses are:
- Credit-bearing and stackable to Graduate Certificate in Engineering Optics and Photonics (9 AU) and FlexiMasters in Engineering Optics and Photonics (15 AU).
- SkillsFuture Credit approved.