By focusing on a class of source coding schemes built around entropy coded dithered quantizers, we develop a framework to deal with average data-rate constraints in a tractable manner that combines ideas from both information andcontrol theories. We focus on a situation where a noisy linear system has been designed assuming transparent feedback and, due to implementation constraints, a source coding scheme has to be deployed in the feedback path. We give a closed form expression for the minimal average data-rate required to achieve a given performance level, and also study the interplay between stability and average data-rates for the considered architecture
We consider encoding of a source with a pre-specified second order statistics, but otherwise arbitra...
This paper quantifies the fundamental limits of variable-length transmission of a general (possibly ...
Communication channels impose a number of obstacles to feedback control, such as delay, noise, and c...
This paper studies discrete-time control systems subject to average data-rate limits. We focus on a ...
The problem of characterizing lower bounds on data-rates needed for closed loop stability has been s...
We consider the problem of controlling an unstable linear plant with Gaussian disturbances over an a...
Communication is an important component of distributed and networked controls systems. In our compan...
This is a Deliverable Report for the FeedNetBack project (www.feednetback.eu). It describes the rese...
We study the communication rate requirements for centralized and decentralized control schemes when ...
Entropy-constrained trellis coded quantization (ECTCQ) of memoryless sources is known to be an effic...
To achieve satisfactory overall performance, optimal rate allocation in a networked control system w...
The utility of limited feedback for coding over an individual sequence of discrete memoryless channe...
This paper deals with control system design subject to average data-rate constraints. By focusing on...
This paper studies networked control systems closed over noiseless digital channels. By focusing on ...
This correspondence presents entropy analyses for dithered and undithered quantized sources. Two met...
We consider encoding of a source with a pre-specified second order statistics, but otherwise arbitra...
This paper quantifies the fundamental limits of variable-length transmission of a general (possibly ...
Communication channels impose a number of obstacles to feedback control, such as delay, noise, and c...
This paper studies discrete-time control systems subject to average data-rate limits. We focus on a ...
The problem of characterizing lower bounds on data-rates needed for closed loop stability has been s...
We consider the problem of controlling an unstable linear plant with Gaussian disturbances over an a...
Communication is an important component of distributed and networked controls systems. In our compan...
This is a Deliverable Report for the FeedNetBack project (www.feednetback.eu). It describes the rese...
We study the communication rate requirements for centralized and decentralized control schemes when ...
Entropy-constrained trellis coded quantization (ECTCQ) of memoryless sources is known to be an effic...
To achieve satisfactory overall performance, optimal rate allocation in a networked control system w...
The utility of limited feedback for coding over an individual sequence of discrete memoryless channe...
This paper deals with control system design subject to average data-rate constraints. By focusing on...
This paper studies networked control systems closed over noiseless digital channels. By focusing on ...
This correspondence presents entropy analyses for dithered and undithered quantized sources. Two met...
We consider encoding of a source with a pre-specified second order statistics, but otherwise arbitra...
This paper quantifies the fundamental limits of variable-length transmission of a general (possibly ...
Communication channels impose a number of obstacles to feedback control, such as delay, noise, and c...