OVERVIEW

Manufacturing today is a web of global activities, integrated via computer and communication networks. It is multi-facetted, incorporating both technology and management. Computer Integrated Manufacturing (CIM) is the discipline in which these areas are organised into a structured and cohesive whole.

Implementation of CIM can result in significant improvements in productivity and product quality and a stronger presence in the global marketplace. To achieve these benefits, there is a need to educate and motivate practising engineers, managers and information technologists regarding CIM methodology, planning and implementation. This is especially true for local companies as they seek to make Singapore a world-class centre for manufacturing.

This programme has been designed to satisfy this need by providing such professionals with in-depth knowledge of all these aspects of CIM. Specific fields covered include computer networks, databases, advanced manufacturing technologies, corporate resource management, distributed and collaborative product development, system design, CAD/CAM, logistics and the role of e-commerce in manufacturing.
 

ADMISSION REQUIREMENTS

Candidates must possess a bachelor's degree in Mechanical, Production, Electrical and Electronic Engineering, Applied Science or equivalent qualifications and relevant practical experience.

An average TOEFL score of 570 for graduates from universities with non-English medium of instruction.

COURSES OF STUDY

CONTENT OF COURSES

 

M6141 QUALITY ENGINEERING	Quality concepts, statistical process control, process improvement, design of experiments, reliability, quality management systems and design, product liability. Case studies and examples of industrial applications will be used throughout the course. The course develops an appreciation of advanced quality engineering techniques and a perception of how quality can be built into all stages of a product life cycle.
M6202 SYSTEMS DESIGN	Systems Principles and Techniques. Systems Dynamics. Systems Engineering. Object Oriented Software Technology. Mentor Software Development Methodology. Systems Architecture: Frameworks for Enterprise Modelling.
M6205 SYSTEMS SIMULATION & MODELLING	Discrete-event simulation; Basic model-building blocks; Simulation of global manufacturing facilities; System life cycle analysis; Simulation validation and verification; Continuous Simulation; Supply Chain Modeling; Simulation Case Study.
M6208 FOUNDATIONS OF COMPUTER INTEGRATED MANUFACTURING	CIM Overview. Modern manufacturing system structure. Computer Architecture and Languages. Computer networks. Data Structure and Algorithms. Object Oriented Method. The Internet. Quantitative Methods. Probability and statistical concepts. Sampling methods. Descriptive statistics.
M6209 MANAGEMENT OF GLOBAL MANUFACTURING OPERATIONS	Introduction and overview. Global manufacturing operations: planning and implementation. Justification and evaluation of global manufacturing. Global manufacturing operations: management. Case study.
M6221 NETWORKING & DATABASES	Network design. ISO/OSI reference model. Manufacturing data communication. Networks in a manufacturing environment. The Internet, Intranet and Extranet. Databases. Relational databases. Object-oriented databases systems. EDI.
M6226 VIRTUAL DESIGN & MANUFACTURING	Computer graphics, hardware and software. Projections, transformations and viewing. Geometric modelling. Curves, surfaces and solids. Computer-aided design. Parametric and feature-based design. Display and visualisation. Product data management. Computer-aided manufacturing. Numerical control machines. Rapid prototyping.
M6232 ECONOMICS & LAW FOR GLOBAL MANUFACTURING	Economics and Law in the new economy. Economic and legal impact of global business communication, interaction and exchanges. Policies on competition; pricing, auctions, contracts, costs and revenue. Business Models: evolving forms of organizations, production strategies and e-Manufacturing, logistics. Legal aspects of the Internet, e-commerce and global manufacturing.
M6234 Advanced Manufacturing Systems	This course covers the changing strategies, architectures and technologies of advanced manufacturing systems to cater for the fast changing manufacturing environment, through the introduction of computer technologies. Topics covered include flexible, agile, adaptive and reconfigurable manufacturing strategies, advanced manufacturing architecture, optimization technologies and intelligent system technologies, and advanced robotics technologies and automated sensors and controllers.
M6288 INDEPENDENT STUDY	This a creative course based on an issue, case study, problem or an area of interest related to the programme. The candidate is required to propose and undertake an independent supervised research on a topic of study subject to the agreement of the Programme Director. The candidate will have to demonstrate expertise in the topic of study, together with creativity, diligence and critical thinking in addressing the problems and issues on the topic.
M6301 ADVANCED METROLOGY & SENSING SYSTEMS	International standards, linear & geometric tolerances. Surface, mechanical and optical metrology. Pneumatic and hydraulic devices for measurement. Transducers for in-process & post-process measurements, piezo devices, signal handling & processing, computer-aided-metrology, residual stress measurement. Scanning electron microscopy, atomic force microscopy and electron probe micro analysis.
M6401 PRODUCT DESIGN & DEVELOPMENT	Multi-disciplinary approach to product design and development. Product development process and strategies. Need identification and product specifications. Generation and evaluation of ideas and concepts. Product architecture. Product aesthetics and form creation. Product semantics and identity.
M6421 ADVANCED DESIGN FOR MANUFACTURING	DFM principles and strategies. Classification system for manual, automatic and robotic assemblies. Evaluation of assembled parts. Analysing products for high-speed automatic assembly. Procedure for redesign. Design of parts for feeding and orienting. Vibratory and non-vibratory feeders. QFD process. Reliability analysis for product design. Selection of materials and processes. Design for repair and recycling.
M6803 COMPUTATIONAL METHODS IN ENGINEERING	Overview of computational requirements in engineering. Review of fundamentals: Number systems and error analysis, convergence and accuracy. algorithms and data structures, software engineering principles. Functions and derivatives. Approximation. Interpolation and quadrature. Eigenvalue problems. Systems of equations. Optimisation. Numerical solutions to ODEs and PDEs. Use of a symbolic computing package: MATLAB.
L6003 CORPORATE RESOURCE PLANNING	Planning and investing corporate resources for innovation, growth and competitive advantage. Global manufacturing and the design of supply chain strategies. Technical and economic analysis of different approaches to corporate strategies. Impact of technological changes. International operations planning. Enterprise and integration. Enterprise resource planning. Organization and capacity planning. Performance evaluation.

 

CONTACT