Print Email Facebook Twitter Continuous sensing on intermittent power Title Continuous sensing on intermittent power Author Majid, A.Y. (TU Delft Embedded and Networked Systems) Schilder, Patrick (Student TU Delft) Langendoen, K.G. (TU Delft Embedded and Networked Systems) Contributor O'Conner, L. (editor) Date 2020 Abstract The main obstacles to achieve truly ubiquitous sensing are (i) the limitations of battery technology - batteries are short-lived, hazardous, bulky, and costly - and (ii) the unpredictability of ambient power. The latter causes sensors to operate intermittently, violating the availability requirements of many real-world applications. In this paper, we present the Coalesced Intermittent Sensor (CIS), an intermittently-powered sensor that senses continuously! Although a single node will frequently be off charging, a group of nodes can -in principle- sense 24/7 provided that their awake times are spread apart. As communication is too expensive, we rely on inherent component variations that induce small differences in power cycles. This basic assumption has been verified through measurements of different nodes and power sources. However, desynchronizing nodes is not enough. An important finding is that a CIS designed for certain (minimal) energy conditions will become synchronized when the available energy exceeds the design point. Nodes employing a sleep mode (to extend their availability) do wake up collectively at some event, process it, and return to charging as the remaining energy is typically too low to handle another event. This results in multiple responses (bad) and missing subsequent events (worse) due to the synchronized charging. To counter this undesired behavior we designed an algorithm to estimate the number of active neighbors and respond proportionally to an event. We show that when intermittent nodes randomize their responses to events, in favorable energy conditions, the CIS reduces the duplicated captured events by 50% and increases the percentage of capturing entire bursts above 85%. Subject Embedded systemsEnergy harvestingIntermittent SystemsUbiquitous computing To reference this document use: http://resolver.tudelft.nl/uuid:3e3c2f33-029e-4640-9fd7-c1dca9ca7cc5 DOI https://doi.org/10.1109/IPSN48710.2020.00-36 Publisher IEEE, Piscataway ISBN 978-1-7281-5498-5 Source 2020 19th ACM/IEEE International Conference on Information Processing in Sensor Networks (IPSN) Event 19th ACM/IEEE International Conference on Information Processing in Sensor Networks, IPSN 2020, 2020-04-21 → 2020-04-24, Sydney, Australia Part of collection Institutional Repository Document type conference paper Rights © 2020 A.Y. Majid, Patrick Schilder, K.G. Langendoen Files PDF cis_ipsn20.pdf 1.24 MB Close viewer /islandora/object/uuid:3e3c2f33-029e-4640-9fd7-c1dca9ca7cc5/datastream/OBJ/view