Under CopyrightPiller, O.O.PillerSedehizade, F.F.SedehizadeBernard, ThomasThomasBernardBraun, M.M.BraunCheifetz, N.N.CheifetzDeuerlein, J.J.DeuerleinWagner, M.M.WagnerLapebie, E.E.LapebieTrick, IrisIrisTrickWeber, J.-M.J.-M.WeberWerey, C.C.Werey2022-08-302022-08-302017https://publica.fraunhofer.de/handle/publica/40288410.24406/publica-fhg-402884The 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.ensecure sensor networkrobust simulation modelresilience assessment004670Augmented resilience of water distribution systems following severe abnormal eventspresentation