Modelling and Simulation of Dynamic Systems Course | IIT Roorkee | Prof. Pushparaj Pathak
Course Details
| Exam Registration | 93 |
|---|---|
| Course Status | Ongoing |
| Course Type | Elective |
| Language | English |
| Duration | 8 weeks |
| Categories | Mechanical Engineering, Robotics |
| Credit Points | 2 |
| Level | Undergraduate/Postgraduate |
| Start Date | 16 Feb 2026 |
| End Date | 10 Apr 2026 |
| Enrollment Ends | 16 Feb 2026 |
| Exam Registration Ends | 27 Feb 2026 |
| Exam Date | 18 Apr 2026 IST |
| NCrF Level | 4.5 — 8.0 |
Unlock the Power of Virtual Engineering: Master Modelling and Simulation
In the world of engineering, the ability to predict, analyze, and optimize system behavior before physical prototyping is a superpower. This is precisely what the Modelling and Simulation of Dynamic Systems course from IIT Roorkee empowers you to do. Designed and delivered by the esteemed Prof. Pushparaj Mani Pathak, this 8-week intensive program is a gateway to mastering the virtual representation of complex physical systems.
Whether you're an undergraduate seeking a cutting-edge elective, a postgraduate student solidifying your core knowledge, or a professional aiming to upskill, this course bridges the gap between theoretical principles and practical, industry-relevant application.
Your Guide: Expertise from Industry and Academia
The course is led by Prof. Pushparaj Mani Pathak, a distinguished professor at IIT Roorkee with a rich blend of industrial and academic experience. His journey includes:
- Academic Credentials: A B.Tech from NIT Calicut, an M.Tech from IIT Kanpur, and a PhD from IIT Kharagpur.
- Industry Tenure: Five years of valuable experience in the industry before transitioning to academia.
- Teaching Legacy: In the teaching profession since 1994, contributing to IIT Roorkee's Mechanical and Industrial Engineering Department since 2006.
- Research Prowess: His research areas include Robotics, Dynamics, Control, and Bond Graph Modelling. He has co-authored a book published by Springer and has over 40 international journal publications.
- Mentorship: He has guided 34 M.Tech theses and 7 PhD theses, underscoring his depth of knowledge and commitment to education.
Who Should Enroll? (Intended Audience)
This course is meticulously designed for:
- B.Tech & M.Tech Students: It serves as a core course for postgraduate programs and a highly valuable elective for undergraduates.
- Engineering Professionals: Professionals in fields like automotive, aerospace, robotics, and manufacturing can significantly enhance their design and analysis capabilities.
- Aspiring Researchers: Individuals looking to build a strong foundation in system dynamics and simulation for research in controls, mechatronics, and robotics.
Industry Relevance and Support
The skills taught in this course are in high demand. The curriculum receives recognition and support from major industries, including:
- Indian Railways
- Defence Research and Development Organisation (DRDO)
This industry backing highlights the practical, real-world application of the course content in solving complex engineering challenges in transportation, defence, and beyond.
Course Structure: An 8-Week Journey to Proficiency
The course is logically structured to take you from fundamental concepts to advanced applications. Here’s a week-by-week breakdown:
| Week | Topic | Key Learning Outcomes |
|---|---|---|
| Week 1 | Introduction to Modelling and Simulation | Understand the philosophy, purpose, and fundamental concepts behind modelling physical systems. |
| Week 2 | Bond Graph Modelling of Dynamic Systems | Learn the powerful, multi-domain Bond Graph technique for unified system modelling. |
| Week 3 | Basic System Models | Develop mathematical models for fundamental mechanical, electrical, and hydraulic components. |
| Week 4 | System Models of Combined Systems | Assemble basic models into complex, interconnected system representations. |
| Week 5 | Dynamic Response and System Transfer Function | Analyze system behavior in the time and frequency domains using transfer functions. |
| Week 6 | Block Diagrams, State Space, and Frequency Response | Master alternative representations like block diagrams and state-space formulations for analysis and control design. |
| Week 7 | Simulation and Simulation Application | Implement models in simulation software to study dynamic behavior under various conditions. |
| Week 8 | Parameter Estimation, System Identification and Optimization | Learn to refine models with experimental data and use simulation for system optimization. |
Hands-On Learning with Industry-Standard Tools
A standout feature of this course is the practical, hands-on component. Thanks to the support from MathWorks, enrolled students have access to MATLAB for the duration of the course. This allows you to apply theoretical concepts immediately, building simulations, analyzing data, and validating models using the industry's leading platform for technical computing.
Why This Course is Essential for Modern Engineers
Modelling and simulation are no longer niche skills; they are fundamental to modern engineering design and problem-solving. This course offers:
- Reduced Cost & Risk: Test and iterate designs virtually, saving enormous costs associated with physical prototypes and failures.
- Deep System Understanding: Move beyond black-box approaches to develop an intuitive grasp of how energy and signals flow through a system.
- Career Advancement: Proficiency in MATLAB, Bond Graph modelling, and system dynamics is highly sought after in core engineering sectors, R&D, and academia.
- A Strong Foundation: The concepts learned form the bedrock for advanced studies in robotics, control systems, vehicle dynamics, and smart manufacturing.
If you are ready to move beyond textbook problems and learn how to create, analyze, and optimize the dynamic systems of tomorrow, this course from IIT Roorkee and Prof. Pushparaj Mani Pathak is your definitive starting point. Enroll and begin your journey to becoming an expert in the virtual engineering landscape.
Enroll Now →