Bibliography | Koch, Gerald G.; Benzing, Andreas; Mayer, Christoph P.: An Approach for Urban Sensing with Quality-Aware Situation Detection and Efficient Communication. In: Hellbrück, Horst (ed.); Luttenberger, Norbert (ed.); Turau, Volker (ed.): Proceedings of the Workshops der wissenschaftlichen Konferenz Kommunikation in verteilten Systemen 2011 (WowKiVS 2011); Kiel, Germany, March 11th, 2011. University of Stuttgart, Faculty of Computer Science, Electrical Engineering, and Information Technology. Electronic Communications of the EASST, pp. 1-10, english. EASST, March 2011. ISSN: 1863-2122. Article in Proceedings (Workshop Paper).
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CR-Schema | C.2.2 (Network Protocols) C.2.4 (Distributed Systems) I.6.3 (Simulation and Modeling Applications)
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Keywords | Urban sensing; Internet of Things; Complex Event Processing; CEP; Delay Tolerant Network; DTN; Distributed Diagnostic Simulation |
Abstract | Urban Sensing employs physical-world mining to create a digital model of the physical world using a large number of sensors. Handling the large amount of data generated by sensors is costly and requires energy-saving measures for sensing and sensor data transmission. Such schemes often affect data quality and message delay. However, the detection of real-world situations using Complex Event Processing on sensor data has to be dependable and timely and requires precise data. In this position paper, we propose an approach to integrate the contradicting optimization goals of energy-efficient wireless sensor networks and dependable situation detection. It separates the system into the following tiers: First, to support energy-efficiency and allow sparse, unconnected sensor networks, we exploit the mobility of people through Delay Tolerant Networking for collecting sensor data. This frees sensor nodes from energy-expensive routing. Second, we employ Diagnostic Simulation which provides data that is complete, precise and in time and therefore supports quality-aware situation detection.
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Full text and other links | PDF (278138 Bytes)
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Copyright | The authors grant EASST e.V. non-exclusive rights of publication free of charge. Exclusive publication rights have not been and will not be granted to any other publisher. The readers will be granted the right to read this article and distribute it without changes. |
Contact | gerald.koch@ipvs.uni-stuttgart.de andreas.benzing@ipvs.uni-stuttgart.de mayer@kit.edu |
Department(s) | University of Stuttgart, Institute of Parallel and Distributed Systems, Distributed Systems
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Project(s) | SpoVNet SimTech
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Entry date | January 26, 2011 |
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