COST INTERACT Whitepaper on Signal Processing for Communications, Localization, and Intergrated Sensing and Communication

TL;DR

This white paper discusses innovative physical layer techniques for 6G wireless systems that integrate communication, sensing, and localization to meet ambitious performance targets.

Contribution

It introduces novel waveform, coding, and signal processing methods combining statistical learning with theoretical signal design for 6G applications.

Findings

Proposes new physical layer designs for integrated communication and sensing.

Addresses high data rates and low latency requirements of 6G.

Explores advanced MIMO and waveform techniques across multiple frequency bands.

Abstract

The upcoming next generation of wireless communication is anticipated to revolutionize the conventional functionalities of the network by adding sensing and localization capabilities, low-power communication, wireless brain computer interactions, massive robotics and autonomous systems connection. Furthermore, the key performance indicators expected for the 6G of mobile communications promise challenging operating conditions, such as user data rates of 1 Tbps, end-to-end latency of less than 1 ms, and vehicle speeds of 1000 km per hour. This evolution needs new techniques, not only to improve communications, but also to provide localization and sensing with an efficient use of the radio resources. The goal of INTERACT Working Group 2 is to design novel physical layer technologies that can meet these KPI, by combining the data information from statistical learning with the theoretical knowledge of the transmitted signal structure. Waveforms and coding, advanced multiple-input multiple-output and all the required signal processing, in sub-6-GHz, millimeter-wave bands and upper-mid-band, are considered while aiming at designing these new communications, positioning and localization techniques. This White Paper summarizes our main approaches and contributions.