Wireless Middleware Solutions for Smart Water Metering

While smart metering applications have initially focused on energy and gas utility markets, water consumption has recently become the subject of increasing attention. Unfortunately, despite the large number of solutions available on the market, the lack of an open and widely accepted communication s...

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Published in	Sensors (Basel, Switzerland) Vol. 19; no. 8; p. 1853
Main Authors	Alvisi, Stefano, Casellato, Francesco, Franchini, Marco, Govoni, Marco, Luciani, Chiara, Poltronieri, Filippo, Riberto, Giulio, Stefanelli, Cesare, Tortonesi, Mauro
Format	Journal Article
Language	English
Published	Switzerland MDPI 18.04.2019 MDPI AG
Subjects	Internet-of-Things smart metering water consumption Internet-of-Things smart metering water consumption
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Abstract	While smart metering applications have initially focused on energy and gas utility markets, water consumption has recently become the subject of increasing attention. Unfortunately, despite the large number of solutions available on the market, the lack of an open and widely accepted communication standard means that vendors typically propose proprietary data collection solutions whose adoption causes non-trivial problems to water utility companies in term of costs, vendor lock-in, and lack of control on the data collection infrastructure. There is the need for open and interoperable smart water metering solutions, capable of collecting data from the wide range of water meters on the market. This paper reports our experience in the development and field testing of a highly interoperable smart water metering solution, which we designed in collaboration with several water utility companies and which we deployed in Gorino Ferrarese, Italy, in collaboration with CADF (Consorzio Acque Delta Ferrarese), the water utility serving the city. At the core of our solution is SWaMM (Smart Water Metering Middleware), an interoperable wireless IoT middleware based on the Edge computing paradigm, which proved extremely effective in interfacing with several types of smart water meters operating with different protocols.
AbstractList	While smart metering applications have initially focused on energy and gas utility markets, water consumption has recently become the subject of increasing attention. Unfortunately, despite the large number of solutions available on the market, the lack of an open and widely accepted communication standard means that vendors typically propose proprietary data collection solutions whose adoption causes non-trivial problems to water utility companies in term of costs, vendor lock-in, and lack of control on the data collection infrastructure. There is the need for open and interoperable smart water metering solutions, capable of collecting data from the wide range of water meters on the market. This paper reports our experience in the development and field testing of a highly interoperable smart water metering solution, which we designed in collaboration with several water utility companies and which we deployed in Gorino Ferrarese, Italy, in collaboration with CADF (Consorzio Acque Delta Ferrarese), the water utility serving the city. At the core of our solution is SWaMM (Smart Water Metering Middleware), an interoperable wireless IoT middleware based on the Edge computing paradigm, which proved extremely effective in interfacing with several types of smart water meters operating with different protocols. While smart metering applications have initially focused on energy and gas utility markets, water consumption has recently become the subject of increasing attention. Unfortunately, despite the large number of solutions available on the market, the lack of an open and widely accepted communication standard means that vendors typically propose proprietary data collection solutions whose adoption causes non-trivial problems to water utility companies in term of costs, vendor lock-in, and lack of control on the data collection infrastructure. There is the need for open and interoperable smart water metering solutions, capable of collecting data from the wide range of water meters on the market. This paper reports our experience in the development and field testing of a highly interoperable smart water metering solution, which we designed in collaboration with several water utility companies and which we deployed in Gorino Ferrarese, Italy, in collaboration with CADF (Consorzio Acque Delta Ferrarese), the water utility serving the city. At the core of our solution is SWaMM (Smart Water Metering Middleware), an interoperable wireless IoT middleware based on the Edge computing paradigm, which proved extremely effective in interfacing with several types of smart water meters operating with different protocols.While smart metering applications have initially focused on energy and gas utility markets, water consumption has recently become the subject of increasing attention. Unfortunately, despite the large number of solutions available on the market, the lack of an open and widely accepted communication standard means that vendors typically propose proprietary data collection solutions whose adoption causes non-trivial problems to water utility companies in term of costs, vendor lock-in, and lack of control on the data collection infrastructure. There is the need for open and interoperable smart water metering solutions, capable of collecting data from the wide range of water meters on the market. This paper reports our experience in the development and field testing of a highly interoperable smart water metering solution, which we designed in collaboration with several water utility companies and which we deployed in Gorino Ferrarese, Italy, in collaboration with CADF (Consorzio Acque Delta Ferrarese), the water utility serving the city. At the core of our solution is SWaMM (Smart Water Metering Middleware), an interoperable wireless IoT middleware based on the Edge computing paradigm, which proved extremely effective in interfacing with several types of smart water meters operating with different protocols.
Author	Govoni, Marco Tortonesi, Mauro Franchini, Marco Luciani, Chiara Casellato, Francesco Alvisi, Stefano Poltronieri, Filippo Riberto, Giulio Stefanelli, Cesare
AuthorAffiliation	2 Department of Mathematics and Computer Science, University of Ferrara, 44121 Ferrara, Italy; mauro.tortonesi@unife.it 1 Department of Engineering, University of Ferrara, 44122 Ferrara, Italy; stefano.alvisi@unife.it (S.A.); francesco.casellato@unife.it (F.C.); marco.franchini@unife.it (M.F.); marco.govoni@unife.it (M.G.); chiara.luciani@unife.it (C.L.); giulio.riberto@unife.it (G.R.); cesare.stefanelli@unife.it (C.S.)
AuthorAffiliation_xml	– name: 2 Department of Mathematics and Computer Science, University of Ferrara, 44121 Ferrara, Italy; mauro.tortonesi@unife.it – name: 1 Department of Engineering, University of Ferrara, 44122 Ferrara, Italy; stefano.alvisi@unife.it (S.A.); francesco.casellato@unife.it (F.C.); marco.franchini@unife.it (M.F.); marco.govoni@unife.it (M.G.); chiara.luciani@unife.it (C.L.); giulio.riberto@unife.it (G.R.); cesare.stefanelli@unife.it (C.S.)
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Title	Wireless Middleware Solutions for Smart Water Metering
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