Open AccessOptimal Control Problems with Symmetry Breaking Cost Functions
Author(s) -
Anthony M. Bloch,
Leonardo Colombo,
Rohit Gupta,
Tomoki Ohsawa
Publication year - 2017
Publication title -
siam journal on applied algebra and geometry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.052
H-Index - 15
ISSN - 2470-6566
DOI - 10.1137/16m1091654
Subject(s) - legendre transformation , mathematics , optimal control , affine transformation , invariant (physics) , context (archaeology) , variational principle , mathematical optimization , mathematical analysis , pure mathematics , mathematical physics , paleontology , biology
We investigate symmetry reduction of optimal control problems for left-invariant control affine systems on Lie groups, with partial symmetry breaking cost functions. Our approach emphasizes the role of variational principles and considers a discrete-time setting as well as the standard continuous-time formulation. Specifically, we recast the optimal control problem as a constrained variational problem with a partial symmetry breaking Lagrangian and obtain the Euler--Poincare equations from a variational principle. By using a Legendre transformation, we recover the Lie--Poisson equations obtained by Borum and Bretl [IEEE Trans. Automat. Control, 62 (2017), pp. 3209--3224] in the same context. We also discretize the variational principle in time and obtain the discrete-time Lie--Poisson equations. We illustrate the theory with some practical examples including a motion planning problem in the presence of an obstacle.
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