M. Tech in Control & Instrumentation Engineering is a two year postgraduation course.

Control and Instrumentation has wide range of applications starting from day to day life to space exploration. In today’s information age, many businesses are placing increasing demands on real time accessibility in order to improve business planning and decision making, and to access information that can demonstrate their economic and environmental performance. Rapid advancement in technologies also provides challenges as businesses need assurance that their control system investments will deliver efficient operational performance of their plants and economic returns, with minimal risk of technological obsolescence. Hence control and instrumentation systems not only play important roles in plant operation, but also in reducing the cost of production while maintaining and/or enhancing safety. Therefore, it is extremely important that control and instrumentation systems are managed efficiently and economically. With the increasing use of digital technologies, new methods are needed to solve problems associated with various aspects of digital control systems.

M. Tech. program in Control and Instrumentation Engineering is intended to explore the above mentioned challenges and also initiate research activities. This program provides necessary theoretical background with a good blend of applied mathematics along with indepth coverage in analysis of various control and instrumentation systems. The core courses include automatic, economic, efficient and reliable control and instrumentation with a wide range of electives in robotics, flight dynamics, electric drives, power system, micro controllers etc.

Duration of the Course: Two years

Eligibility : B. E. /B. Tech. in Electrical & Electronics Engineering/ Electrical & Communication Engineering/ Electronics & Instrumentation Engineering with minimum 60% marks.

Course of Study

Core Courses Electives
Applied Mathematics Microcontrollers and Applications
Advanced Control Systems Computer Controlled Systems
Control System Design Intelligent Control
Optimal and Adaptive Control Virtual Instrumentation
Instrumentation systems Operation and Control of Power Systems
Digital Control Systems System Identification and Parameter estimation
Nonlinear System Analysis Modeling and Simulation
Process Control and Instrumentation Power plant Instrumentation
Control and Instrumentation Laboratory Power Electronic Converters
  Robust Control
  Biomedical Instrumentation
  Robotics Control
  Electrical Drives and Control
  Industrial Load Modeling and Control
  Flight Dynamics and Control
  Embedded Control Systems


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