Explore the fundamental principles of Automation and Control Systems in this comprehensive course. Delve into the evolution, complexities, and challenges of control systems, ranging from manufacturing to high-performance computing. Understand the critical components, from sensors to actuators, and their role in maintaining desired conditions. Gain insights into the historical development of control systems in manufacturing and their role in modern industrial processes. Examine the impact of automation on society and the complexities of designing systems for safety and efficiency. Learn about the reliability and limitations of sensor systems, signal processing, and the intricacies of high-performance computing. Discuss the importance of optimal solutions in engineering development and explore the future of complexity and reliability in system design. The course concludes with a focus on critical systems design in robotics.

Key Topics:

•    Control Systems Overview
•    Evolution of Control Systems in Manufacturing
•    Challenges of Machine Control and Automation
•    Modern Manufacturing and Control Systems
•    Automation and Control Systems in Power Management
•    Designing Systems for Safety and Efficiency
•    Impact of Linear Dynamics and Technology on Society
•    Evolution of Technology and Its Impact
•    Network Security and Data Management
•    Reliability and Limitations of Sensor Systems
•    High-Performance Computing Complexity
•    Optimal Solutions in Engineering Development
•    Future of Complexity and Reliability
•    System Control in Mathematical Systems
•    Design and Artificial Intelligence in Technology
•    Self-Checking in System Reliability
•    Critical Systems Design in Robotics