Behçet Açıkmeşe scite author profile

This paper presents an algorithm to solve nonconvex optimal control problems, where non-convexity can arise from nonlinear dynamics, and non-convex state and control constraints. This paper assumes that the state and control constraints are already convex or convexified, the proposed algorithm convexifies the nonlinear dynamics, via a linearization, in a successive manner. Thus at each succession, a convex optimal control subproblem is solved. Since the dynamics are linearized and other constraints are convex, after a discretization, the subproblem can be expressed as a finite dimensional convex programming subproblem. Since convex optimization problems can be solved very efficiently, especially with custom solvers, this subproblem can be solved in time-critical applications, such as real-time path planning for autonomous vehicles. Several safe-guarding techniques are incorporated into the algorithm, namely virtual control and trust regions, which add another layer of algorithmic robustness. A convergence analysis is presented in continuoustime setting. By doing so, our convergence results will be independent from any numerical schemes used for discretization. Numerical simulations are performed for an illustrative trajectory optimization example.

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Minimum-Landing-Error Powered-Descent Guidance for Mars Landing Using Convex Optimization

Blackmore

Açıkmeşe

Scharf

2010

Journal of Guidance, Control, and Dynamics

308

125

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Model Predictive Control in Aerospace Systems: Current State and Opportunities

Eren

Prach

Koçer

et al. 2017

Journal of Guidance, Control, and Dynamics

276

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