Nuclear norm minimization for blind subspace identification (N2BSID)
Dexter Scobee (University of California)
Lillian Ratliff (University of California)
Roy Dong (University of California)
Henrik Ohlsson (Linköping University, University of California)
M Verhaegen (TU Delft - Team Raf Van de Plas)
S Shankar Sastry (University of California)
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Abstract
In many practical applications of system identification, it is not feasible to measure both the inputs applied to the system as well as the output. In such situations, it is desirable to estimate both the inputs and the dynamics of the system simultaneously; this is known as the blind identification problem. In this paper, we provide a novel extension of subspace methods to the blind identification of multiple-input multiple-output linear systems. We assume that our inputs lie in a known subspace, and we are able to formulate the identification problem as rank constrained optimization, which admits a convex relaxation. We show the efficacy of this formulation with a numerical example.
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