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Characterization and modeling of wireless channels for networked robotic and control systems - a comprehensive overview

Yasamin Mostofi, Alejandro Gonzalez-Ruiz, Alireza Gaffarkhah, Li Ding

Year
2009
Citations
73

Abstract

The goal of this paper is to serve as a reference for researchers in robotics and control that are interested in realistic modeling, theoretical analysis and simulation of wireless links. To realize the full potentials of networked robotic systems, an integration of communication issues with motion planning/control is necessary. While considerable progress has been made in the area of networked robotic systems, communication channels are typically considered ideal or ideal within a certain radius of the transmitter, both considerable oversimplifications of wireless channels. It is the goal of this paper to provide a comprehensive overview of the key characteristics of wireless channels, as relevant to networked robotic operations. In particular, we provide a probabilistic framework for characterization of the underlying multi-scale dynamics of a wireless link: small-scale fading, large-scale fading and path loss. We furthermore confirm these mathematical models with channel measurements made in our building. We also discuss channel characterization based on the knowledge available on the geometry and dielectric properties of the environment.

Keywords

FadingWirelessComputer scienceChannel (broadcasting)RoboticsTransmitterPath lossMotion planningProbabilistic logicDistributed computing

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