Hands-Off Covariance Steering: Inducing Feedback Sparsity via Iteratively Reweighted 1,p Regularization
Abstract
We consider the problem of optimally steering the state covariance matrix of a discrete-time linear stochastic system to a desired terminal covariance matrix, while inducing the control input to be zero over many time intervals. We propose to induce sparsity in the feedback gain matrices by using a sum-of-norms version of the iteratively reweighted 1-norm minimization. We show that the lossless convexification property holds even with the regularization term. Numerical simulations show that the proposed method produces a Pareto front of transient cost and sparsity that is not achievable by a simple 1-norm minimization and closely approximates the 0-norm minimization obtained from brute-force search.
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