PSO-based controller parameters design for spacecraft

Jing Rui Zhang; Heng Wang

PSO-based controller parameters design for spacecraft

Jing Rui Zhang^*
, Heng Wang

^*Corresponding author for this work

School of Aerospace Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

This paper presents the parameters design and optimization of large angle attitude and rapid maneuver for spacecraft. Quaternion is used to describe spacecraft kinematics. Based on Lyapunov theory, a global attitude adjusting ability standard is defined for a series of spacecraft attitude controller. The influence of the parameters to the control capacity is discussed numerically. Particle swarm optimization (PSO) is proposed to optimize the parameters of controller, avoiding selecting parameters by traditional experience. The mechanism of sharing information among particles is introduced to obtain solution. Numerical simulation results show that PSO can reach the optimal solution 67 s of system within 31 generations under the limits of output torque. By updating the position and velocity of particles to seek solutions, PSO provides strong global search ability and convergent performance.

Original language	English
Pages (from-to)	425-428
Number of pages	4
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	30
Issue number	4
Publication status	Published - Apr 2010

Keywords

Large angle attitude rapid maneuver
Parameter optimization
Particle swarm optimization (PSO)

Cite this

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title = "PSO-based controller parameters design for spacecraft",

abstract = "This paper presents the parameters design and optimization of large angle attitude and rapid maneuver for spacecraft. Quaternion is used to describe spacecraft kinematics. Based on Lyapunov theory, a global attitude adjusting ability standard is defined for a series of spacecraft attitude controller. The influence of the parameters to the control capacity is discussed numerically. Particle swarm optimization (PSO) is proposed to optimize the parameters of controller, avoiding selecting parameters by traditional experience. The mechanism of sharing information among particles is introduced to obtain solution. Numerical simulation results show that PSO can reach the optimal solution 67 s of system within 31 generations under the limits of output torque. By updating the position and velocity of particles to seek solutions, PSO provides strong global search ability and convergent performance.",

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N2 - This paper presents the parameters design and optimization of large angle attitude and rapid maneuver for spacecraft. Quaternion is used to describe spacecraft kinematics. Based on Lyapunov theory, a global attitude adjusting ability standard is defined for a series of spacecraft attitude controller. The influence of the parameters to the control capacity is discussed numerically. Particle swarm optimization (PSO) is proposed to optimize the parameters of controller, avoiding selecting parameters by traditional experience. The mechanism of sharing information among particles is introduced to obtain solution. Numerical simulation results show that PSO can reach the optimal solution 67 s of system within 31 generations under the limits of output torque. By updating the position and velocity of particles to seek solutions, PSO provides strong global search ability and convergent performance.

AB - This paper presents the parameters design and optimization of large angle attitude and rapid maneuver for spacecraft. Quaternion is used to describe spacecraft kinematics. Based on Lyapunov theory, a global attitude adjusting ability standard is defined for a series of spacecraft attitude controller. The influence of the parameters to the control capacity is discussed numerically. Particle swarm optimization (PSO) is proposed to optimize the parameters of controller, avoiding selecting parameters by traditional experience. The mechanism of sharing information among particles is introduced to obtain solution. Numerical simulation results show that PSO can reach the optimal solution 67 s of system within 31 generations under the limits of output torque. By updating the position and velocity of particles to seek solutions, PSO provides strong global search ability and convergent performance.

KW - Large angle attitude rapid maneuver

KW - Parameter optimization

KW - Particle swarm optimization (PSO)

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JO - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

JF - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

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ER -

PSO-based controller parameters design for spacecraft

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Keywords

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