[en] In this paper, the trade-off between the quantization noise and the dynamic range of ADCs used to acquire radar signals is revisited using the Unlimited Sensing Framework (USF) in a practical setting. Trade-offs between saturation and resolution arise in many applications, like radar, where sensors acquire signals which exhibit a high degree of variability in amplitude. To solve this issue, we propose the use of the co-design approach of the USF which acquires folded version of the signal of interest and leverages its structure to reconstruct it after its acquisition. We demonstrate that this method outperforms other standard acquisition methods for Doppler radars. We show this theoretically by providing mathematical insights on why the perfect reconstruction of Doppler signals from their folded measurements is possible. Our findings are corroborated via numerical simulations. Taking our theory all the way to practice, we develop a prototype USF-enabled Doppler Radar and show the clear benefits of our method. In each experiment, we show that using the USF increases sensitivity compared to a classic acquisition approach.
Disciplines :
Electrical & electronics engineering
Author, co-author :
FEUILLEN, Thomas ; University of Luxembourg > Interdisciplinary Centre for Security, Reliability and Trust (SNT) > SPARC
MYSORE RAMA RAO, Bhavani Shankar ; University of Luxembourg > Interdisciplinary Centre for Security, Reliability and Trust (SNT) > SPARC
Bhandari, Ayush; Imperial College London,Department of Electrical and Electronic Engineering
External co-authors :
yes
Language :
English
Title :
Unlimited Sampling Radar: Life Below the Quantization Noise
Publication date :
04 June 2023
Event name :
IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP 2023)
