*Semester 1: Foundation Basics*

1. *Mathematics-I* (Calculus, Linear Algebra) 

2. *Engineering Physics* (Mechanics, Waves) 

3. *Basic Electrical Engineering* (DC/AC Circuits, Network Analysis) 

4. *Programming for Engineers* (Python/C, Basics of Algorithms) 

5. *Engineering Graphics* (CAD Tools) 

6. *Environmental Science* 

*Lab*: Electrical Circuits Lab, Programming Lab 

 

*Semester 2: Core Engineering Principles*

1. *Mathematics-II* (Differential Equations, Probability) 

2. *Engineering Chemistry* (Materials, Energy Systems) 

3. *Electronics Engineering* (Diodes, Transistors, OP-Amps) 

4. *Engineering Mechanics* (Statics, Dynamics) 

5. *Technical Communication* 

*Lab*: Electronics Lab, MATLAB Basics 

 

*Semester 3: Introduction to Systems*

1. *Mathematics-III* (Complex Variables, Laplace Transforms) 

2. *Signals and Systems* (Time/Frequency Domain Analysis) 

3. *Digital Electronics* (Logic Gates, Microcontrollers) 

4. *Circuit Theory* (Network Theorems, Filters) 

5. *Introduction to Control Systems* (Open/Closed Loop Systems) 

*Lab*: Digital Electronics Lab, Control Systems Simulation (MATLAB) 

 

*Semester 4: Core Control Systems*

1. *Linear Control Systems* (Transfer Functions, Stability, Bode/Nyquist Plots) 

2. *Electrical Machines* (Motors, Generators, Drives) 

3. *Sensors and Instrumentation* (Transducers, Signal Conditioning) 

4. *Microprocessors and Microcontrollers* (8085, ARM, Arduino) 

5. *Industrial Automation Basics* (Relays, Pneumatics) 

*Lab*: Control Systems Lab, Microcontroller Programming 

 

*Semester 5: Advanced Control Theory*

1. *Digital Control Systems* (Z-Transform, PID, Discrete-Time Systems) 

2. *Process Control* (PLC, PID Tuning, Industrial Controllers) 

3. *Robotics Fundamentals* (Kinematics, Actuators, Sensors) 

4. *Power Electronics* (Converters, Drives for Control) 

5. *Elective-I* (e.g., Embedded Systems) 

*Lab*: PLC Programming Lab, Robotics Lab 

 

*Semester 6: Automation & Applications*

1. *Nonlinear Control Systems* (Phase Plane, Lyapunov Stability) 

2. *Industrial IoT and SCADA* (Communication Protocols, Cloud Integration) 

3. *Optimal Control* (LQR, Kalman Filtering) 

4. *Mechatronics* (Integration of Mechanics, Electronics, Control) 

5. *Elective-II* (e.g., Autonomous Systems) 

*Lab*: SCADA/PLC Lab, IoT Prototyping 

 

*Semester 7: Specialization & Projects*

1. *AI in Control Systems* (Neural Networks, Fuzzy Logic) 

2. *Model Predictive Control* (MPC Design) 

3. *Elective-III* (e.g., Drone Control Systems) 

4. *Elective-IV* (e.g., Biomedical Control Systems) 

5. *Project-I* (Design/Research, e.g., Autonomous Robot) 

*Lab*: AI/ML for Control (Python/ROS), Advanced Simulation Tools 

 

*Semester 8: Industry Integration*

1. *Industrial Internship* (6–8 Weeks in Automation/Manufacturing Firms) 

2. *Capstone Project* (Thesis on Industry Problem, e.g., Smart Factory Design) 

3. *Professional Ethics* 

4. *Elective-V* (e.g., Cybersecurity in Industrial Networks) 

 

*Electives (Sample)* 

- Autonomous Vehicle Control 

- Advanced Robotics (SLAM, Path Planning) 

- Machine Learning for Dynamic Systems 

- Aerospace Control Systems 

- Energy Management Systems