A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
System identification of open water channels with undershot and overshot gates
System identification of irrigation channels is considered. Both undershot and overshot gates are treated, and the overshot gates operate in both free and submerged flow. The models are estimated and validated on operational data from The Coleambally Main Channel in Australia. The obtained system identification models are very accurate, and they are able to simulate the real water level more than 12 h ahead of time. Moreover, they are computationally inexpensive and ideally suited for control design. The results show that system identification and control have important parts to play in management of water resources.
System identification of open water channels with undershot and overshot gates
System identification of irrigation channels is considered. Both undershot and overshot gates are treated, and the overshot gates operate in both free and submerged flow. The models are estimated and validated on operational data from The Coleambally Main Channel in Australia. The obtained system identification models are very accurate, and they are able to simulate the real water level more than 12 h ahead of time. Moreover, they are computationally inexpensive and ideally suited for control design. The results show that system identification and control have important parts to play in management of water resources.
System identification of open water channels with undershot and overshot gates
Systemidentifikation der offenen Wasserkanäle mit unter- und oberschlächtigen Sperren
Euren, Karin (author) / Weyer, Erik (author)
2007
12 Seiten, 17 Bilder, 6 Tabellen, 29 Quellen
Conference paper
English