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A Unified Channel Model for Both Communication and Sensing in Integrated Sensing and Communication Systems

Junpeng Lou, Ruiqi Liu, Chuangxin Jiang, Xianghui Han, Zhiqiang Han, Qi Yang, Zhongbin Wang

202319 citationsDOI

Abstract

Integrated sensing and communication (ISAC) is envisaged to play a prominent role in the next generation wireless networks. Developing generic and accurate channel models for ISAC to characterize signal propagation is critical towards its successful research, standardization and deployment. In this paper, a unified approach to model an ISAC channel is proposed, which is intended to be applicable for both communication and sensing purposes. To generate the channel coefficients for sensing channels, differences from traditional communication channels including pathloss, line of sight probability, the Doppler effect and the fast fading effect are analyzed systematically. Implementations of the proposed model are carried out through simulations to demonstrate the feasibility and the accuracy.

Topics & Concepts

Computer scienceChannel (broadcasting)FadingStandardizationImplementationWirelessCommunications systemElectronic engineeringSoftware deploymentComputer networkDistributed computingTelecommunicationsEngineeringSoftware engineeringOperating systemIndoor and Outdoor Localization TechnologiesRadar Systems and Signal ProcessingRadio Wave Propagation Studies
A Unified Channel Model for Both Communication and Sensing in Integrated Sensing and Communication Systems | Litcius