The advances in the design of circuits and systems for low-complexity and ultra-low power IR-UWB communication has revealed the possibility of transmitting and receiving analog information, by fully exploiting the delay resolution among asynchronously transmitted pulses. This paper investigates on the feasibility of low-latency asynchronous networking through the devising of a specific system model built onto high-threshold IR- UWB transceivers using a bottom-up approach. Compared to the other wireless technologies low-latency and event-driven analog data transmission are distinctive features specifically enabled by the UWB pulses time resolution combined with asynchronous threshold detectors receivers. Revisiting networking in this cross- sectional light can possibly open the way to a significant number of solutions to critical applications and consequent research & development.
Low-latency asynchronous networking for the IoT: Routing analog pulse delays using IR-UWB / Crepaldi, Marco; Sanginario, Alessandro; Ros, Paolo Motto; Demarchi, Danilo. - ELETTRONICO. - 1:(2016), pp. 1-4. (Intervento presentato al convegno IEEE International New Circuits and Systems Conference (NEWCAS) tenutosi a Vancouver nel 26-29 June 2016) [10.1109/NEWCAS.2016.7604842].
Low-latency asynchronous networking for the IoT: Routing analog pulse delays using IR-UWB
Sanginario, Alessandro;Ros, Paolo Motto;DEMARCHI, DANILO
2016
Abstract
The advances in the design of circuits and systems for low-complexity and ultra-low power IR-UWB communication has revealed the possibility of transmitting and receiving analog information, by fully exploiting the delay resolution among asynchronously transmitted pulses. This paper investigates on the feasibility of low-latency asynchronous networking through the devising of a specific system model built onto high-threshold IR- UWB transceivers using a bottom-up approach. Compared to the other wireless technologies low-latency and event-driven analog data transmission are distinctive features specifically enabled by the UWB pulses time resolution combined with asynchronous threshold detectors receivers. Revisiting networking in this cross- sectional light can possibly open the way to a significant number of solutions to critical applications and consequent research & development.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2656613
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