Litcius/Paper detail

Reduced multibody system transfer matrix method using decoupled hinge equations

Rui Xue, Dieter Bestle

2021International journal of mechanical system dynamics99 citationsDOIOpen Access PDF

Abstract

Abstract In the multibody system transfer matrix method (MSTMM), the transfer matrix of body elements may be directly obtained from kinematic and kinetic equations. However, regarding the transfer matrices of hinge elements, typically information of their outboard body is involved complicating modeling and even resulting in combinatorial problems w.r.t. various types of outboard body's output links. This problem may be resolved by formulating decoupled hinge equations and introducing the Riccati transformation in the new version of MSTMM called the reduced multibody system transfer matrix method in this paper. Systematic procedures for chain, tree, closed‐loop, and arbitrary general systems are defined, respectively, to generate the overall system equations satisfying the boundary conditions of the system during the entire computational process. As a result, accumulation errors are avoided and computational stability is guaranteed even for huge systems with long chains as demonstrated by examples and comparison with commercial software automatic dynamic analysis of the mechanical system.

Topics & Concepts

HingeMatrix (chemical analysis)Multibody systemMass matrixKinematicsComputer scienceControl theory (sociology)Boundary (topology)Mechanical systemBoundary value problemTransfer matrixMathematicsApplied mathematicsMathematical analysisEngineeringPhysicsStructural engineeringClassical mechanicsNeutrinoNuclear physicsComputer visionMaterials scienceComposite materialControl (management)Artificial intelligenceDynamics and Control of Mechanical SystemsMechanical Engineering and Vibrations ResearchVehicle Dynamics and Control Systems
Reduced multibody system transfer matrix method using decoupled hinge equations | Litcius