Research on Algorithm for Non-Cooperative Target Inertial Parameters Identification

Zhi Gang Chen; Ju Shu; Su Xia Zhu

doi:10.4028/www.scientific.net/AMM.543-547.1550

Paper Titles

Effect of the Mechanical Properties and Geometric Parameters on the Crack Density of a Multi-Layered Thin Film Structure under Residual Tensile Stress
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Design and Characteristics of a New Thin Cross Type Rotary Ultrasonic Motor
p.1537

Online Direction Classification and Recognition Using an Intuitive Tactile Communication
p.1542

Design of Dummy General Test Device for Missiles Based on PXI Bus
p.1546

Research on Algorithm for Non-Cooperative Target Inertial Parameters Identification
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A Polynomially Solvable Case for Solving Crane Scheduling Problem in Batch Annealing Process
p.1555

Heuristic Algorithm for Solving Multi-Crane Scheduling in Steel Coil Warehouse
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Research and Simulation on Stability Control after Network Intrusion
p.1563

A Precision Agriculture Architecture with Cyber-Physical Systems Design Technology
p.1567

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 543-547Research on Algorithm for Non-Cooperative Target...

Research on Algorithm for Non-Cooperative Target Inertial Parameters Identification

Abstract:

It is of great importance to accomplish identifying the non-cooperative targets inertial parameters for capturing and controlling it. This paper adopts an identification method utilizing the tactile and vision to establish the identification equations based on the principle of conservation of momentum. In order to solve the equations precisely and rapidly, two of the most widely used methods: the least square method and the recursive least-square method (RLS) are employed for simulation and calculation utilizing ADAMS and MATLAB, and the limitation of each method is pointed out. Then the paper proposes a new method named the recursive method based on the least square solution. This method provides the identification equation a new solving thought and realizes fast identification of the targets inertial parameters at high accuracy. The simulation results verify the validity and feasibility of the proposed approach.

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Periodical:

Applied Mechanics and Materials (Volumes 543-547)

Pages:

1550-1554

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.543-547.1550

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Online since:

March 2014

Authors:

Zhi Gang Chen*, Ju Shu, Su Xia Zhu

Keywords:

Identifying Equation, Inertial Parameters, Least Square Solution, Non-Cooperative Target

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