The course aims to address the following aspects, to provide a thorough understanding of the fundamental ideas of cyber physical systems (CPS). To teach the applications of cyber physical components, such as sensors, actuators, processors, communication devices etc. To learn and apply the fundamentals of embedded C and Micro Python programming for CPS applications. To address features required in building CPS in application such as healthcare, smart civil structures and smart cities, mechatronics, hybrid electric vehicles, industrial automation etc.
The purpose of this course is to take a holistic view of cyber physical systems, with a focus on various computational features for engineering disciplines such as complex communications, control and information fusion for Industrial Application. The course also aims to provide adequate practical exposure to hardware and software co-design in the development of cyber physical systems for industries.
At the end of this course, learners will be able to
- Get a thorough knowledge and expertise of cyber physical system design paradigms, architectures, opportunities, and problems, both in terms of software and hardware. Analyse the CPS’ specification and implement the same for real time industrial applications.
- Expand their knowledge of CPS design through hands-on experiments and project-based learning.
- Improve their employability and entrepreneurship capacity as a result of knowledge advancement in current trends in CPS.
- Embedded systems
- ARM processors
- Embedded C
- Cyber physical systems
- Micro python
- Power transmission and distribution
- Industrial power system analysis
- Practitioner's approach to power system protection and switchgear
- Power system operation and control
- Renewable energy and power evacuation
- Smart grid technologies
- Electrical power distribution engineering and automation
- Integrated engineering of MV substation
- Microprocessors and applications – a practical approach
- Embedded system design
- FPGA design for industrial applications (VLSI)
- Digital image processing
- Micro electro mechanical systems
- Control system engineering
- SCADA and substation automation
- Electric vehicles and control
- Wireless sensor networks and 5G technology
- Pervasive computing for industry 4.0
- Advanced electrical system design for buildings
- Extra low voltage system design for buildings
Area of Expertise:
Control Systems, Reduced Order Modelling, Digital Control, Power Systems, Magnetic Levitation
Area of Expertise:
Embedded Systems Optical & Wireless Communication, Low Power VLSI Systems
Area of Expertise:
Electrical Substation & Power Distribution, Industrial & Building Electrification
Area of Expertise:
Thermal Power Projects
Area of Expertise:
Power Generation, Transmission & Distribution, EPC Contracts, Consultancy, PMC
Area of Expertise:
VLSI & Signal Processing, Power Electronics, Embedded systems
Area of Expertise:
Power System Analysis, Transmission & Distribution, High Voltage Engineering
Area of Expertise:
Signal Processing, Wireless Sensors, RFID and Pervasive Computing