This module is part of the Specialist Diploma in Advanced Digital Manufacturing and provides the practical aspects of the important characteristics of a Cyber-Physical System (CPS). The state-of-the-art learning equipment called the Cyber-Physical Factory will be used to facilitate the learning of creating a digital representation of the production system, the concept of modularity, and flexibility that are vital to increasing productivity and adaptability of the production configurations to meet the changing demands of the market requirements. Participants will be working on the Cyber-Physical Factory with hands-on exercises using both the Manufacturing Execution System (MES) and Digital Simulation Software in combination.

This module is part of the Specialist Diploma in Advanced Digital Manufacturing and it covers various aspects of the Internet of Things (IoT) that lead to the development of skills and experiences employed in designing novel industrial IoT systems.

This module is part of the Specialist Diploma in Advanced Digital Manufacturing and provides an overview of the characteristics and components of a Cyber-Physical System (CPS) and how it can form an important part of Industry 4.0. The participants will learn the theory of computation and communication platform architectures for automation and the RAMI 4.0, ISA-95, and the OSI Layer model. The concept of the convergence between Information Technology (IT) and Operation Technology (OT) will also be covered to see how it brings the automation system to another level of intelligence with a new dimension of unprecedented connectivity.

This module is part of the Specialist Diploma in Advanced Digital Manufacturing and provides the holistic perspective of the underlying concept of Industry 4.0 and its underpinning core elements of Organisation, Technology, and Process - the paradigm shift to the production of the future with integrated automation to enhance productivity, efficiency, and flexibility in manufacturing processes. Participants will learn the steps for implementing Industry 4.0 and the application of technology such as Manufacturing Execution System (MES), RFID, OPCUA, smart sensors & augmented reality in a practical way.

This module is part of the Specialist Diploma in Advanced Digital Manufacturing. This module aims to equip modern manufacturing engineers and managers with deep insights into the effective organization of manufacturing processes. Participants will be introduced to topics such as digital value stream analysis, Lean 4.0, manufacturing execution systems, and enterprise resource planning systems. In addition, participants will also have the opportunity to hear from a local SME on their digital transformation journey as early adopters.

This module is part of the Specialist Diploma in Advanced Digital Manufacturing. In this module, participants will be introduced to the global Smart Industry Readiness Index (SIRI) initiative and disruptive innovations in the advanced manufacturing sector. Industrial use cases and practical examples from local companies will be shared to illustrate how the adoption of disruptive innovations can help to augment production output. This practical-oriented module will be co-delivered by industry guest speakers from Siemens and TranZplus Academy.

The increasing automation in production facilities & the introduction of Industry 4.0 technologies unshackle workers from mundane shop-floor tasks to new job roles and responsibilities allowing them to spend more time on higher-value activities such as monitoring datasets for the implementation of preventive maintenance regimes. More importantly, how organizations evolve their business operations involves the new way of interactions between people, machines, and processes in this digital era.

Overview of basics of technologies (machine controls, sensors, gateways/connectors, user interfaces, etc) that are used in the Industry 4.0 environment and the important characteristics of a Cyber-Physical System. It aims to deliver the learning of the concepts of modularity and flexibility in manufacturing – concepts that are vital to increasing productivity and adaptability of production configurations to meet the changing demands of the market requirements. Practical implementation of a networked factory centrally controlled by the Manufacturing Execution System (MES) for production control, data collection, and process analysis will be demonstrated.

The business operations of companies are increasingly influenced by the introduction of Industry 4.0 technologies, hence the basic understanding of how these technologies change the way of interactions between people, machines, and processes is essential. These are crucial for enabling the optimal business performance of companies. Basic knowledge about networked business models, B2B platforms, and networked production solutions will be explained to illustrate the relationships of one or more supply chains in the environment of Industry 4.0.

Industry 4.0 describes a fundamental change in the world of production. Modern information and communication technologies are merging with classic industrial processes to form the so-called Cyber-Physical System. Driven by the Internet, the real and virtual worlds are increasingly growing closer together. This module will introduce the key concepts of Industry 4.0 and the driving technologies for the convergence of digital and physical worlds.

• As the Industrial Internet of Things (IIoT) develops, sensors get smarter and reliance on smart sensor technology increases. It is a
• building block of Industry 4.0.
• This course provides the participants with an insight principle of smart sensors with project-oriented learning activities.

This training course provides participants with the basic knowledge of the construction and function of hydraulic and electric components as well as develop the ability to read, design, and construct simple hydraulic circuits.

Overview of AC and DC motor drive system. The range of drives includes systems of varying degrees of complexity, including single-phase and three-phase drives, DC drives, and AC drives.

• The signs in automation are on course for growth. Automation will become even more important in the next few years. On the one hand, more and more areas and thus industries are served, on the other hand, existing areas are modernized.
• Technological leadership is the key to success in global competition. Many new and interesting areas of activity will be opened up for industrial robotics in the future.
• Mobile robots are becoming increasingly important in automation technology alongside industrial robots. They can be used as logisticians for simple material transport. However, flexible production processes in smart factories place ever more complex demands on mobile robotics systems.

To provide the participant with an understanding of the construction and function of pneumatic and electric components used in automation. Participants will also be able to read, design, and construct simple pneumatic and electro-pneumatic circuits.

To provide the participant with an understanding of the construction and function of pneumatic and electric components used in automation. Participants will also be able to read, design and construct simple pneumatic and electro-pneumatic circuits.