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A Factor-Graph Approach for Optimization Problems with Dynamics Constraints

Mandy Xie, Alejandro Escontrela, Frank Dellaert

Year
2020
Citations
14
Access
Open access

Abstract

In this paper, we introduce dynamics factor graphs as a graphical framework to solve dynamics problems and kinodynamic motion planning problems with full consideration of whole-body dynamics and contacts. A factor graph representation of dynamics problems provides an insightful visualization of their mathematical structure and can be used in conjunction with sparse nonlinear optimizers to solve challenging, high-dimensional optimization problems in robotics. We can easily formulate kinodynamic motion planning as a trajectory optimization problem with factor graphs. We demonstrate the flexibility and descriptive power of dynamics factor graphs by applying them to control various dynamical systems, ranging from a simple cart pole to a 12-DoF quadrupedal robot.

Keywords

Computer scienceOptimization problemFlexibility (engineering)Factor (programming language)Factor graphRepresentation (politics)GraphTrajectory optimizationMathematical optimizationDynamical systems theory

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