Doppler Effect: Analyses and Applications in Wireless Sensing and Communications

TL;DR

This paper provides a comprehensive analysis of Doppler effects across various signals and applications, addressing classical and relativistic factors to establish a solid theoretical foundation for modern wireless sensing and communication systems.

Contribution

It offers an extensive theoretical framework for understanding Doppler shifts in diverse motion profiles and propagation conditions in modern wireless systems.

Findings

Detailed analysis of Doppler effects in different motion scenarios

Integration of classical and relativistic Doppler considerations

Foundation for improved signal processing in sensing and communications

Abstract

This chapter is motivated by the need for a rigorous and comprehensive analysis of the Doppler effects encountered by electromagnetic and acoustic signals across a diverse spectrum of modern applications. These include land mobile communications, various Internet of Things (IoT) networks, machine-type communications (MTC), and various radar and satellite-based systems for navigation and sensing, as well as the emerging regime of integrated sensing and communications (ISAC). A wide array of kinematic profiles is investigated, ranging from uniform motion and constant acceleration to more complex general motion. Consequently, the multi-faceted factors influencing the Doppler shift are addressed in detail, encompassing classical kinematics, special and general relativity, atmospheric dynamics, and the properties of the propagation medium. This work is intended to establish a definitive theoretical foundation for both the general enthusiast and the specialized researcher seeking to master the complexities of signal frequency shifts in modern wireless sensing and communications systems.