|Bibliography||Weinschrott, Harald; Weisser, Julian; Dürr, Frank; Rothermel, Kurt: Participatory Sensing Algorithms for Mobile Object Discovery in Urban Areas. |
In: Proceedings of the 9th Annual IEEE International Conference on Pervasive Computing and Communications.
University of Stuttgart : Collaborative Research Center SFB 627 (Nexus: World Models for Mobile Context-Based Systems).
pp. 128-135, english.
IEEE Computer Society, March 2011.
Article in Proceedings (Conference Paper).
|CR-Schema||C.2 (Computer-Communication Networks)|
This paper introduces mechanisms for the automated detection of mobile objects in urban areas. Widely available devices such as mobile phones with integrated proximity sensors such as RFID readers or Bluetooth cooperatively perform sensing operations to discover mobile objects. In this paper, we propose a coverage metric for assessing the completeness of sensing that considers spatial and temporal aspects. To maximize coverage while minimizing energy consumption of mobile nodes, we propose both a centralized and a distributed coordination algorithm for selecting nodes that need to sense. Moreover, we present strategies that allow selected nodes to perform efficient sense operations. By extensive simulations, we show that distributed coordination achieves drastic energy savings of up to 63%, while limiting the coverage loss to 13%. Moreover, we show that the centralized algorithm loses less than 1% coverage compared to the maximum possible coverage.
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The original publication is available at IEEE Xplore
Project website www.ComNSense.de
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|Department(s)||University of Stuttgart, Institute of Parallel and Distributed Systems, Distributed Systems|
|Project(s)||SFB-627, B3 (University of Stuttgart, Institute of Parallel and Distributed Systems, Distributed Systems)|
|Entry date||February 3, 2011|