English

LQG Control Performance with Low Bitrate Periodic Coding

Optimization and Control 2020-04-09 v1 Systems and Control Systems and Control

Abstract

Specific low-bitrate coding strategies are examined through their effect on LQ control performance. By limiting the subject to these methods, we are able to identify principles underlying coding for control; a subject of significant recent interest but few tangible results. In particular, we consider coding the quantized output signal deploying period-two codes of differing delay-versus-accuracy tradeoff. The quantification of coding performance is via the LQ control cost. The feedback control system comprises the coder-decoder in the path between the output and the state estimator, which is followed by linear state-variable feedback, as is optimal in the memoryless case. The quantizer is treated as the functional composition of an infinitely-long linear staircase function and a saturation. This permits the analysis to subdivide into estimator computations, seemingly independent of the control performance criterion, and an escape time evaluation, which ties the control back into the choice of quantizer saturation bound. An example is studied which illustrates the role of the control objective in determining the efficacy of coding using these schemes. The results mesh well with those observed in signal coding. However, the introduction of a realization-based escape time is a novelty departing significantly from mean square computations.

Keywords

Cite

@article{arxiv.2004.03648,
  title  = {LQG Control Performance with Low Bitrate Periodic Coding},
  author = {Behrooz Amini and Robert R. Bitmead},
  journal= {arXiv preprint arXiv:2004.03648},
  year   = {2020}
}

Comments

12-page submission to IEEE TCNS

R2 v1 2026-06-23T14:43:26.166Z