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Paper presented at 15th International Computing & Control for the Water Industry Conference, CCWI 2017, 5th - 7th September 2017, Sheffield
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Piller, O.; Sedehizade, F.; Bernard, Thomas; Braun, M.; Cheifetz, N.; Deuerlein, J.; Wagner, M.; Lapebie, E.; Trick, I.; Weber, J.-M.; Werey, C.:
Fulltext urn:nbn:de:0011-n-5250316 (369 KByte PDF) MD5 Fingerprint: 09cbf5255a2599ec8534ba0e08c4f196 Created on: 19.12.2018 |
| 2017, 8 pp.
International Computing & Control for the Water Industry Conference (CCWI) <15, 2017, Sheffield> |
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| English |
| Presentation, Electronic Publication |
| Fraunhofer IOSB () |
| secure sensor network; robust simulation model; resilience assessment |
Abstract
The detection of faults and the capacity to return quickly to a normal state after failures and interruption of services are essential for water utilities. The ResiWater project aims to improve the following three aspects for better network security and enhanced resilience: prevention, surveillance and response of water distribution systems facing the major threats. In this paper, we present the ResiWater project main results after two years. A focus is made on the resilience framework and the development of high-performance sensors for fast detection of water quality deterioration or system breakdown.