Industry 4.0 & Cyber Physical Programs
Why Choose Industry 4.0 and Cyber-Physical Systems Programs at MIET?
Step into the future of smart manufacturing, automation, and intelligent systems with MIET’s specialized programs in Industry 4.0 and Cyber-Physical Systems. Designed in collaboration with industry leaders and research centers like IIT Ropar’s AWaDH Lab, these programs provide hands-on learning using cutting-edge tools such as Jetson Nano, Siemens TIA Portal, Mitsubishi PLCs, and AnyLogic. From nano-level introductions to advanced diploma training, learners gain practical skills in IoT, SCADA, robotics, digital twin technologies, and edge AI. With real-world projects, gamified labs, and simulation-based learning, these programs prepare you for high-impact careers in the smart industries of tomorrow
- Smart Sensors and Actuators
- 15 hours | 0.5 credits
- Introduces IoT-enabled sensors, data acquisition protocols, and actuator control using Arduino and Raspberry Pi kits.
- Introduction to PLC Programming
- 15 hours | 0.5 credits
- Skill-building with ladder logic, timers, counters, and real-time simulation using software like Siemens TIA Portal and Allen-Bradley Studio 5000.
- Industrial IoT Fundamentals
- 30 hours | 1 credit
- Covers MQTT, OPC-UA, and edge computing basics; practical with Node-RED and Blynk.
- Human-Machine Interface (HMI) Basics
- 30 hours | 1 credit
- Students build basic dashboards using SCADA/HMI tools like WinCC and FactoryTalk View.
- Digital Twin Technology Introduction
- 30 hours | 1 credit
- Teaches creation of digital twins in manufacturing using open-source tools like AnyLogic and Unity3D.
- Cyber-Physical Systems Design and Simulation
- 60 hours | 2 credits
- Integrates CPS principles with hands-on simulations using MATLAB/Simulink; includes modeling of autonomous systems, embedded control, and smart grids.
- Smart Manufacturing and Industrial Automation
- 60 hours | 2 credits
- Covers PLC-SCADA integration, robotics, and predictive maintenance using industrial AI/ML; uses real plant scenarios and gamified labs.
- Edge Computing for Industrial Applications
- 60 hours | 2 credits
- Focused on deploying real-time analytics on edge devices like Jetson Nano; includes integration of IoT data pipelines and AI model deployment.
- Robotics Integration in Industry 4.0
- 90 hours | 3 credits
- Trains in robotic arm programming (Mitsubishi/UR), sensor-actuator feedback systems, and motion planning; real-time HMI interfacing.
- Digital Factory and Simulation Tools
- 90 hours | 3 credits
- Provides hands-on experience with factory simulation software (e.g., Siemens Tecnomatix, FlexSim), enabling the modelling and optimisation of digital production lines.
- Industrial Automation and SCADA Certification
- 320 hours | 9–10 credits
- Integrates Mitsubishi Electric training modules with MIET’s industrial automation lab. Hands-on with PLCs, SCADA design, HMI interfacing, and conveyor automation systems. Includes real-time fault detection and alarm management scenarios.
- Cyber-Physical Systems and Embedded Control (MATLAB + Simulink + AWaDH Lab)
- 320 hours | 9–10 credits
- Offered in collaboration with the IIT Ropar AWaDH Lab, this program includes advanced CPS modelling and real-time system simulation using MATLAB/Simulink. Learners work on smart agriculture, health monitoring, and autonomous mobility case studies, applying embedded control principles in physical lab scenarios.
- Edge AI and Sensor Fusion (Jetson Nano + AWaDH Lab)
- 160 hours | 6–8 credits
- Focused on building edge-AI enabled CPS using NVIDIA Jetson Nano, integrated with multi-sensor arrays for health, environment, and mobility. Students work with live AWaDH setups to collect and fuse data for real-time predictions.
Diploma in Industry 4.0 and Cyber-Physical Systems
480 hours | 18 credits
This skill-based diploma integrates MIET’s micro-credit courses with advanced labs in Industrial Automation, IIoT, and Cyber-Physical Systems, leveraging the capabilities of the IIT Ropar AWaDH Lab. It offers comprehensive training in PLC-SCADA programming, sensor fusion, robotics, and digital twin modelling. Students work on real-time systems using tools like Siemens TIA Portal, Mitsubishi PLCs, Jetson Nano, and AnyLogic.
Career Pathways with our Programs
- Industrial Automation Engineer
- SCADA/HMI Developer
- IoT Solutions Architect
- PLC Programmer
- Robotics Engineer
- Embedded Systems Engineer
- Cyber-Physical Systems Designer
- Digital Twin Developer
- Smart Manufacturing Consultant
- Edge Computing Specialist
- AI/ML Engineer for Industrial Applications
- Factory Simulation Analyst
- Sensor Fusion Specialist
- Process Automation Analyst
- Autonomous Systems Engineer
- Smart Agriculture Technologist
- Health Monitoring Systems Engineer
- Environmental Data Analyst (Edge AI focus)
Industry Partners
