Ultra-wideband based pulse radars have been an active research topic over the last decades because of their accurate positioning, resistance to multipath fading, and narrow-band interference immunity. Usually, they rely on expensive or custom-based designs that have hampered the wide diffusion of these solutions. This paper presents a study of a cheap ultrawide-band bistatic radar based on commercial off-the-shelf DecaWave's DWM1001 UWB transceiver. This study confirms the possibility of using the UWB radios as components for radar development, with a mean error on the estimated distance below 20 cm.
Doglioni, M., Santoro, L., Nardello, M., Fontanelli, D., Brunelli, D. (2022). Cost-effective bistatic radar with ultrawide-band radio. Piscataway, NJ : IEEE Institute of Electrical and Electronics Engineers [10.1109/MetroInd4.0IoT54413.2022.9831767].
Cost-effective bistatic radar with ultrawide-band radio
Brunelli, Davide
Supervision
2022
Abstract
Ultra-wideband based pulse radars have been an active research topic over the last decades because of their accurate positioning, resistance to multipath fading, and narrow-band interference immunity. Usually, they rely on expensive or custom-based designs that have hampered the wide diffusion of these solutions. This paper presents a study of a cheap ultrawide-band bistatic radar based on commercial off-the-shelf DecaWave's DWM1001 UWB transceiver. This study confirms the possibility of using the UWB radios as components for radar development, with a mean error on the estimated distance below 20 cm.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
