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Design and Real Time implementation of fmincon, MOGA tuned IO-PID and FO-PID Controllers for Stabilization of TRMS

Sudarshan K. Valluru, Rajul Kumar, Rahul Kumar

2020Procedia Computer Science12 citationsDOIOpen Access PDF

Abstract

The insistence of this paper is to design Fractional order-proportional Integral Derivative (FO-PID) and Integral order –Proportional Integral Derivative (IO-PID) controllers for trajectory tracking control of Twin rotor Multiple Input Multiple Output (MIMO) system (TRMS). The aim of these designed controllers is to move the main and tail actuator at the desired angles accurately to fulfill the demanding attributes so that TRMS should stabilize while hovering. The controller parameters of both the controllers are optimized using fmincon function as well as Multiobjective genetic algorithm. Both the controller are tested in real time and their performance are compared for control of yaw and pitch angles of TRMS. Manual disturbances are given at after 40 seconds of first given disturbance, and the designed controllers are highly capable in diminishing quickly the effect of manual perturbations given to the main and tail rotor of TRMS. From experiment it is observed from comparative performance that FO-PID controller tuned using multiobjective genetic algorithm give best performance in term of time taken to stabilization after the given disturbance.

Topics & Concepts

PID controllerControl theory (sociology)Rotor (electric)Computer scienceTrajectoryGenetic algorithmController (irrigation)ActuatorControl engineeringMIMOControl (management)EngineeringTemperature controlPhysicsArtificial intelligenceChannel (broadcasting)BiologyMechanical engineeringAstronomyComputer networkMachine learningAgronomyAdvanced Control Systems DesignAdaptive Control of Nonlinear SystemsAdvanced Control Systems Optimization
Design and Real Time implementation of fmincon, MOGA tuned IO-PID and FO-PID Controllers for Stabilization of TRMS | Litcius