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Performance improvement of an active vibration absorber subsystem for an aircraft model using a bees algorithm based on multi-objective intelligent optimization
Authors:Milad Zarchi  Behrooz Attaran
Affiliation:1. Department of Aerospace Engineering, University of Shahid Beheshti, Tehran, Iran;2. Department of Mechanical Engineering, University of Shahid Chamran, Ahvaz, Iran
Abstract:This study develops a mathematical model to investigate the behaviour of adaptable shock absorber dynamics for the six-degree-of-freedom aircraft model in the taxiing phase. The purpose of this research is to design a proportional-integral-derivative technique for control of an active vibration absorber system using a hydraulic nonlinear actuator based on the bees algorithm. This optimization algorithm is inspired by the natural intelligent foraging behaviour of honey bees. The neighbourhood search strategy is used to find better solutions around the previous one. The parameters of the controller are adjusted by minimizing the aircraft’s acceleration and impact force as the multi-objective function. The major advantages of this algorithm over other optimization algorithms are its simplicity, flexibility and robustness. The results of the numerical simulation indicate that the active suspension increases the comfort of the ride for passengers and the fatigue life of the structure. This is achieved by decreasing the impact force, displacement and acceleration significantly.
Keywords:Proportional-integral-derivative technique  aircraft active suspension system  hydraulic nonlinear actuator  bees multi-objective intelligent optimization algorithm  numerical simulation
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