Journal article

Interior Point Differential Dynamic Programming

A Pavlov, I Shames, C Manzie

IEEE Transactions on Control Systems Technology | IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC | Published : 2021

DOI: 10.1109/TCST.2021.3049416

Abstract

This brief introduces a novel differential dynamic programming (DDP) algorithm for solving discrete-time finite-horizon optimal control problems with inequality constraints. Two variants, namely feasible- and infeasible-IPDDP algorithms, are developed using a primal-dual interior-point methodology, and their local quadratic convergence properties are characterized. We show that the stationary points of the algorithms are the perturbed KKT points, and thus can be moved arbitrarily close to a locally optimal solution. Being free from the burden of the active-set methods, it can handle nonlinear state and input inequality constraints without a discernible increase in its computational complexit..

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Grants

Awarded by Australian Government

Awarded by ONR MURI

Funding Acknowledgements

This work was supported in part by the Australian Government under Grant AUSMURIB000001 and in part by the ONR MURI under Grant N00014-19-1-2571. Recommended by Associate Editor W. Zhang.

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Keywords

Interior Point Methods
Heuristic Algorithms
Science & Technology
Convergence
Optimization
Dynamic Programming
10 Reduced Inequalities
Prediction Algorithms
Trajectory
Optimal Control
Numerical Methods
Engineering, Electrical & Electronic
40 Engineering
4007 Control Engineering, Mechatronics and Robotics
Technology
Finite Horizon Optimal Control
Engineering
Automation & Control Systems
Differential Dynamic Programming (ddp)