Design of optimized fuzzy model-based controller for nonlinear systems using hybrid intelligent strategies

Kharrati, Hamed; Khanmohammadi, Sohrab; Zeiaee, Amin; Navarbaf, Alireza; Alizadeh, Ghasem

doi:10.1177/0959651812454063

Cited by 3 publications

(1 citation statement)

References 43 publications

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“…The input e(t) is defined with eight linguistic variables, dividing Z into NZ: negative zero and PZ: positive zero. 14 Table 1 presents the rules of the control inputs function.…”

Section: Fuzzy Pid Controllermentioning

confidence: 99%

The modeling and controlling of electrohydraulic actuator for quadruped robot based on fuzzy Proportion Integration Differentiation controller

Gao

et al. 2014

Proceedings of the Institution of Mechanical Engineers, Part C:

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Hydraulic actuators are widely used in various kinds of industrial applications. High-power density is key parameters for engineering applications especially for quadruped robots applied in the outdoor environment. Therefore, an increasing number of advanced robots are equipped with hydraulic actuators. In this paper, to compensate the inherent nonlinearities and enhance the performance of the quadruped robot, a hybrid fuzzy controller composed of fuzzy logic controller and Proportion Integration Differentiation controller is evaluated both in simulations and experiments. The control strategy is developed based on the accurate mathematical model. The Matlab Simulink and Fuzzy Logic Toolbox are implemented to accomplish the simulations under flexible loads. Single hydraulic actuator and single leg experiments are accomplished on the specific platforms. Both the simulations and the experimental results indicate that the fuzzy Proportion Integration Differentiation control strategy is capable of fulfilling the specific position tracking under diverse loads. Compared with the conventional Proportion Integration Differentiation controller, the fuzzy Proportion Integration Differentiation controller provided a desirable performance under heavy load with comparatively little response and settling time. Results show that the fuzzy Proportion Integration Differentiation control strategy can effectively achieve the objective of enhancing position tracking robustness under flexible loads and improve the performance of quadruped robot.

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“…The input e(t) is defined with eight linguistic variables, dividing Z into NZ: negative zero and PZ: positive zero. 14 Table 1 presents the rules of the control inputs function.…”

Section: Fuzzy Pid Controllermentioning

confidence: 99%

The modeling and controlling of electrohydraulic actuator for quadruped robot based on fuzzy Proportion Integration Differentiation controller

Gao

et al. 2014

Proceedings of the Institution of Mechanical Engineers, Part C:

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The modeling and simulation of mine rescue robot with brushless direct current motor based on fuzzy logical controller

Gao

Chen

2014

The 4th Annual IEEE International Conference on Cyber Technology in Automation, Control and Intelligent

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The coal robot is highly demanded in rescuing and detecting in the coal tunnel after explosion. Due to combustible gases in the tunnel, brushless direct current motor is widely applied for avoiding the danger of spark. In addition, the brushless direct current motor adapts to flexible load, which makes it satisfy both the tough terrain and the slopes. In this paper, the wheeled robot is developed in the Adams. The brushless direct current motor control system is modeled precisely based on the Matlab Simulink and Adams S-function to test the slope climbing ability. To enhance the performance of the speed tracking capacity, a hybrid fuzzy speed controller composed of fuzzy logic controller and proportion integration differential controller is proposed. The simulations show that the controller with a constant set of coefficient cannot adapt to both level road and slope. The results indicate that the motor control system based on the hybrid fuzzy speed controller regulates the speed and torque very well. Therefore, the motor control system is capable of fulfilling the speed tracking under flexible load. Additionally, the results show that the motor and reducer can meet the needs of the maximum torque and the power supplement.

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Posture regulation of input constrained differential drive robots with bounds on stabilization time

Sajadi

Rahmanpour

Milani

2016

2016 4th International Conference on Robotics and Mechatronics (ICROM)

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Design of optimized fuzzy model-based controller for nonlinear systems using hybrid intelligent strategies

Cited by 3 publications

References 43 publications

The modeling and controlling of electrohydraulic actuator for quadruped robot based on fuzzy Proportion Integration Differentiation controller

The modeling and controlling of electrohydraulic actuator for quadruped robot based on fuzzy Proportion Integration Differentiation controller

The modeling and simulation of mine rescue robot with brushless direct current motor based on fuzzy logical controller

Posture regulation of input constrained differential drive robots with bounds on stabilization time

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