A Binarizing NUV Prior and its Use for M-Level Control and Digital-to-Analog Conversion

Add code
May 06, 2021
Raphael Keusch, Hans-Andrea Loeliger
Figure 1 for A Binarizing NUV Prior and its Use for M-Level Control and Digital-to-Analog Conversion
Figure 2 for A Binarizing NUV Prior and its Use for M-Level Control and Digital-to-Analog Conversion
Figure 3 for A Binarizing NUV Prior and its Use for M-Level Control and Digital-to-Analog Conversion
Figure 4 for A Binarizing NUV Prior and its Use for M-Level Control and Digital-to-Analog Conversion

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon

Priors with a NUV representation (normal with unknown variance) have mostly been used for sparsity. In this paper, a novel NUV prior is proposed that effectively binarizes. While such a prior may have many uses, in this paper, we explore its use for discrete-level control (with M $\geq$ 2 levels) including, in particular, a practical scheme for digital-to-analog conversion. The resulting computations, for each planning period, amount to iterating forward-backward Gaussian message passing recursions (similar to Kalman smoothing), with a complexity (per iteration) that is linear in the planning horizon. In consequence, the proposed method is not limited to a short planning horizon and can therefore outperform "optimal" methods. A preference for sparse level switches can easily be incorporated.

* arXiv admin note: text overlap with arXiv:2102.00989  
View paper onarxiv icon

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon