Thursday, 8 October 2020

Modern control engineering




 

Modern control engineering is one of the branches of engineering based on mathematical models of multiple phenomena and analyzing the dynamic performance of these phenomena using control theory to create controllers capable of making these systems work in a specific way.

 

For control systems, circuit applications, digital signal processors, and microcontrollers are used, as well as sensors and devices related to the implementation of the control process.

 

Control engineering has many applications, from aviation science to the flight control systems found in many modern cars.

 

Control engineering or control systems engineering is an engineering field that applies automatic control theory to design systems with desired behaviors in control environments. The controls discipline overlaps and is usually taught alongside electrical engineering in many organizations around the world.

 

The practice uses sensors and detectors to measure the performance of the outputs of the controlled process; These measurements are used to provide corrective feedback that helps achieve your desired performance.

 

Systems designed for performance without the need for human input are called automatic control systems (such as cruise control to regulate a vehicle's speed).

 

The multidisciplinary control systems engineering activities in nature focus on implementing control systems which are fundamentally derived from mathematical modeling of a variety of systems.

 

Control engineering has many applications, from aviation science to the flight control systems found in many modern cars.

 

  • Lessons in linear control engineering.

  • Lessons in nonlinear control engineering.

  • Lessons in jamming control engineering.

  • Lessons in controlling systems with sporadic transactions.

 

What is the difference between Mechatronics Engineering and Control Engineering?

Modern control engineering The Control and Automation Engineering Department are concerned with preparing practical technical personnel to work in various industrial sectors, such as maintenance and repair of faults in laboratories and industrial institutions, in companies specializing in the maintenance of equipment and automation of laboratories and industrial institutions, and in shops selling and maintaining control equipment and systems, maintenance and repair of faults for control systems for modern cars, installation, operation and maintenance of industrial networks Special maintenance workshops.

 

During his two years of study, the student studies the basic foundations and principles of electrical and electronic engineering, how to use measuring devices of all kinds, diagnostic devices for faults, characterizing electronic and electrical elements using manufacturers and distributing company catalogs, extracting electronic components alternatives, implementing and examining analog and digital electronic circuits.

 

and using personal and industrial computers in control. And identifying the corridors and gates and one of the programming languages ​​and maintenance of faults for the feeder units in general and the switching in particular, the operation of programming the maintenance of microcontroller systems, dealing with programmers and memories, operating - programming (simple projects) - delivery - preventive maintenance of PLC programmed control systems and simulation systems.

 

The student undertakes a practical training for at least one month during the summer vacation in one of the public or private sector institutions closely related to this specialty, and the aim is to link the sciences that the student receives at the institute with the actual practical reality and in preparation for the start of a successful practical life.

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