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A Systematic Approach for Designing Analytical Dynamics and Servo Control of Constrained Mechanical Systems
Authors:Xiaoli Liu  Shengchao Zhen  Kang Huang  Han Zhao  Ye-Hwa Chen  Ke Shao
Affiliation:1. Hefei University of Technology, Hefei 230009, China;;2. Hefei University of Technology, Hefei 230009, China, and also with Georgia Institute of Technology, GA 30332, USA;;3. Georgia Institute of Technology, GA 30332, USA
Abstract:A systematic approach for designing analytical dynamics and servo control of constrained mechanical systems is proposed. Fundamental equation of constrained mechanical systems is first obtained according to Udwadia-Kalaba approach which is applicable to holonomic and nonholonomic constrained systems no matter whether they satisfy the D'Alember's principle. The performance specifications are modeled as servo constraints. Constraint-following servo control is used to realize the servo constraints. For this inverse dynamics control problem, the determination of control inputs is based on the Moore-Penrose generalized inverse to complete the specified motion. Secondorder constraints are used in the dynamics and servo control. Constraint violation suppression methods can be adopted to eliminate constraint drift in the numerical simulation. Furthermore, this proposed approach is applicable to not only fully actuated but also underactuated and redundantly actuated mechanical systems. Two-mass spring system and coordinated robot system are presented as examples for illustration. 
Keywords:Constrained system  fundamental equation  servo constraint  numerical drift  underactuated system  redundantly actuated system
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