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In order to remain competitive, industrial companies are using advanced technologies to automate their processes and operations. Seamless real-time communication between human machine interfaces (HMIs), programmable logic controllers (PLCs), sensors and actuators is essential to industrial automation. Adoption of suitable protocols ensures successful exchanges of data. There are a relatively large number of industrial communication protocols that have been developed over the last few decades. This course will help students develop the skills they will need as professional engineers to critically evaluate a given protocol and assess its suitability for different industrial applications.

The course focuses on industrial control networks. It builds upon knowledge and skills developed in undergraduate courses on data communication systems typically covering traditional local area network protocols such as Ethernet and higher level protocols such as TCP/IP. The major differences between industrial networks and traditional computer networks are considered in detail. Factors influencing the choice of industrial communication protocols for given applications are analysed and network performance parameters are deduced and evaluated.

On successful completion of this course students should be able to:

1. Explain the technological development of industrial networks from telemetry systems to modern SCADA systems
2. List and explain the differences between industrial network communication protocols and the protocols used in general computer networking.
3. Use the seven-layer OSI model as a framework to understand and compare commonly used industrial protocols such as EthernetIP, Modbus, Profibus and DNP3.
4. Evaluate the relative strengths and weaknesses of different industrial protocols and assess their suitability for particular applications
5. Design an industrial communications network for a given application such as building services, power systems automation, water treatment and factory automation
6. Apply standard techniques to assess the likely performance of a network and interpret network data to verify these calculations.
7. Communicate technical information in a professional manner.