TY - GEN
T1 - Innovative ad-hoc wireless sensor networks to significantly reduce leakages in underground water infrastructures
AU - Trinchero, Daniele
AU - Stefanelli, Riccardo
AU - Cisoni, Luca
AU - Kadri, Abdullah
AU - Abu-Dayya, Adnan
AU - Hasna, Mazen
AU - Khattab, Tamer
PY - 2010/12
Y1 - 2010/12
N2 - This paper presents an ICT solution to overcome the problem of water dispersion in water distribution networks. Leakage prevention and breaks identification in water distribution networks are fundamental for an adequate use of natural resources. Nowadays, all over the world, water wasting along the distribution path reaches untenable percentages (up to 80 % in some regions). Since the pipes are buried within the terrain, typically only relevant breaks are considered for restorations: excavations are very expensive and consequently the costs to identify the position of the leakage or just the position of the pipe itself are too high. To address this problem, and simplify the leakage identification process, the authors have designed a wireless network system making use of mobile wireless sensors able to detect breaks and reveal unknown tracks and monitor the pressure spectrum of the fluid flowing in the pipe. The sensors transmit the acquired data from the terrain to the surface by use of a wireless connection. On the surface ground there are stations that receive the signal, process it, and communicate with a central unit where necessary intelligent signal processing techniques are used to detect leakage sources. Compared to other leakage detection solutions already available in the market (such as: Ground penetrating radar (GPR), pure acoustic techniques and tracer gases), the proposed technique appears very efficient and much more inexpensive.
AB - This paper presents an ICT solution to overcome the problem of water dispersion in water distribution networks. Leakage prevention and breaks identification in water distribution networks are fundamental for an adequate use of natural resources. Nowadays, all over the world, water wasting along the distribution path reaches untenable percentages (up to 80 % in some regions). Since the pipes are buried within the terrain, typically only relevant breaks are considered for restorations: excavations are very expensive and consequently the costs to identify the position of the leakage or just the position of the pipe itself are too high. To address this problem, and simplify the leakage identification process, the authors have designed a wireless network system making use of mobile wireless sensors able to detect breaks and reveal unknown tracks and monitor the pressure spectrum of the fluid flowing in the pipe. The sensors transmit the acquired data from the terrain to the surface by use of a wireless connection. On the surface ground there are stations that receive the signal, process it, and communicate with a central unit where necessary intelligent signal processing techniques are used to detect leakage sources. Compared to other leakage detection solutions already available in the market (such as: Ground penetrating radar (GPR), pure acoustic techniques and tracer gases), the proposed technique appears very efficient and much more inexpensive.
KW - Ad-hoc networks
KW - Green technology
KW - Radio-acoustic sensors
KW - RFIDs
KW - Wireless sensor networks
UR - https://www.scopus.com/pages/publications/79551555388
M3 - Conference contribution
AN - SCOPUS:79551555388
SN - 9781424482726
T3 - International Telecommunication Union - Proceedings of the 2010 ITU-T Kaleidoscope Academic Conference: Beyond the Internet? Innovations for Future Networks and Services
SP - 203
EP - 209
BT - International Telecommunication Union - Proceedings of the 2010 ITU-T Kaleidoscope Academic Conference
T2 - 2010 3rd ITU-T Kaleidoscope Academic Conference: Beyond the Internet? Innovations for Future Networks and Services
Y2 - 13 December 2010 through 15 December 2010
ER -