Adelaide Research & Scholarship: Search

Search

Results 21-30 of 83 (Search time: 0.002 seconds).

previous
1
2
3
4
5
6
...
9
next

Item hits:

Preview	Issue Date	Title	Author(s)
	2012	The Darcy-Weisbach Jacobian and avoiding zero flow failures in the global gradient algorithm for the water network equations	Elhay, S.; Simpson, A.; World Environmental and Water Resources Congress (2012 : Albuquerque, New Mexico, USA)
	2010	Graph decomposition in risk analysis and sensor placement for water distribution network security	Deuerlein, J.; Wolters, A.; Meyer-Harries, L.; Simpson, A.; Water Distribution Systems Analysis (12th : 2010 : Tucson, Arizona, USA)
	2019	Controlling rainwater storage as a system: An opportunity to reduce urban flood peaks for rare, long duration storms	DiMatteo, M.; Lang, R.; Maier, H.; Thyer, M.A.; Simpson, A.; Dandy, G.
	2019	A software tool for assessing the performance of and implementing water distribution system solution methods	Qiu, M.; Alexander, B.; Simpson, A.; Elhay, S.
	2019	Benchmarking study of water distribution system solution methods	Qiu, M.; Elhay, S.; Simpson, A.; Alexander, B.
	2011	Performance study of differential evolution with various mutation strategies applied to water distribution system optimization	Zheng, F.; Simpson, A.; Zecchin, A.; World Environmental and Water Resources Congress (2011 : Palm Springs, California, USA)
	2015	Designing sensor networks for leak detection in water pipeline systems	Cardell-Oliver, R.; Scott, V.; Chapman, T.; Morgan, J.; Simpson, A.; Tenth International Conference on Intelligent Sensors Sensor Networks & Information Processing (IISSNIP) (7 Apr 2015 - 9 Apr 2015 : Singapore, Singapore)
	2015	Investigating the run-time searching behavior of the differential evolution algorithm applied to water distribution system optimization	Zheng, F.; Zecchin, A.; Simpson, A.
	2018	Least squares deconvolution for leak detection with a pseudo random binary sequence excitation	Nguyen, S.; Gong, J.; Lambert, M.; Zecchin, A.; Simpson, A.
	2015	On-site non-invasive condition assessment for cement mortar-lined metallic pipelines by time-domain fluid transient analysis	Gong, J.; Stephens, M.; Arbon, N.; Zecchin, A.; Lambert, M.; Simpson, A.