Back close
Admissions

Course Detail

Course Name Hardware-in-Loop and Digital Twin
Course Code 25AI660
Program M.Tech. Electrical Engineering
Credits 3
Campus Bengaluru, Coimbatore

Syllabus

Syllabus

Introduction to Model-in-the-Loop (MIL), Software-in-the-Loop (SIL), and Hardware-in-the-Loop (HIL) – Need and advantages of HIL – Real-time simulation concepts, deterministic execution – I/O interface design and synchronization – Case studies: Automotive, Aerospace, Power Systems, Power Electronics & Drive applications. 

Concept, definition, and lifecycle of a Digital Twin -Types of Digital Twins: Product, Process, and System Twins- Data flow between physical and digital systems – Virtual sensing and real-time analytics – Interfacing with IoT devices and cloud platforms (MQTT, OPC-UA, Azure IoT Hub). Case studies: Smart Grid, Manufacturing, Predictive Maintenance.

Coupling HIL systems with Digital Twins – Real-time data acquisition and feedback loops – Co-simulation frameworks: FMI/FMU standards, OpenModelica, Functional Mock-up Interface – Fault injection and scenario testing – Challenges: Latency, Security, Model fidelity. Future trends: AI-powered twins, Edge computing integration.

HIL Tools: MATLAB/Simulink Real-Time Environment, OPAL-RT, dSPACE, Typhoon-HIL, NI-DAQ.

Objectives and Outcomes

Pre-requisite: Digital Signal Processing

Course Objectives

  • To understand the role of HIL in system prototyping and validation.
  • To explore the concept of Digital Twins and their integration with cyber-physical systems.
  • To gain practical exposure to the tools, platforms, and frameworks used in HIL and Digital Twin development.
  • To bridge the gap between simulation and real-world deployment through co-simulation and real-time interfacing techniques.

Course Outcomes

CO1: Understand the role of HIL in system prototyping and validation.

CO2: Design HIL test benches using simulation tools and embedded hardware.

CO3: Develop the architecture and lifecycle of a Digital Twin system.

CO4: Develop Digital Twin models using physical and data-driven approaches.

CO-PO Mapping

PO/PSO

PO1

PO2

PO3

PO4/PSO1

PO5/PSO2

CO

CO1

3

1

CO2

3

2

2

CO3

3

1

1

CO4

2

2

2

2

2

Text Books / References

  1. Franklin, G. F., Powell, J. D., & Emami-Naeini, A., “Feedback Control of Dynamic Systems “, 8th edition, Pearson, 2019.
  2. Drath, R., “Integrated Simulation and Hardware-in-the-Loop (HIL) for Mechatronic Systems”, VDI Verlag, 2010.
  3. Tao, F., Sui, F., Liu, A., Qi, Q., Zhang, M., & Song, B., “Digital Twin Driven Smart Design”, 1st Edition, Elsevier, 2020.
  4. Zhang, W., Yang, D., & Wang, J., “Data-Driven Modeling for Digital Twin and Smart Manufacturing “, 1st Edition, Springer, 2021.
  5. MathWorks. MATLAB Documentation and Toolboxes for HIL and Simscape Real-Time. Available at: https://www.mathworks.com/help
  6. National Instruments (NI) and dSPACE GmbH. Technical Manuals and Application Notes. Available at:
    1. NI: https://www.ni.com/documentation/
    2. dSPACE: https://www.dspace.com/en/pub/home/support/documentation.cfm

DISCLAIMER: The appearance of external links on this web site does not constitute endorsement by the School of Biotechnology/Amrita Vishwa Vidyapeetham or the information, products or services contained therein. For other than authorized activities, the Amrita Vishwa Vidyapeetham does not exercise any editorial control over the information you may find at these locations. These links are provided consistent with the stated purpose of this web site.

Admissions Apply Now