Integrated Analysis of Aerial and Terrestrial Imagery Data for Efficient and Effective Water Loss Mapping of a Canal System

Author:

Chen Jiawei112,Tang Pingbo112,Rakstad Todd E.112

Affiliation:

1. School of Sustainable Engineering and the Built Environment, Arizona State Univ., 660 South College Ave., Tempe, AZ 85287-3005.

2. Salt River Project, 1521 N. Project Dr., Tempe, AZ 85281.

Publisher

American Society of Civil Engineers

Reference13 articles.

1. A remote sensing technique detecting and identifying water activity sites along irrigation canals;Arshad M.;American Journal of Environmental Engineering and Science,2014

2. ISODATA, a novel method of data analysis and pattern classification;Ball G. H.;Analysis, (AD699616),1965

3. Integrating visible, near-infrared and short-wave infrared hyperspectral and multispectral thermal imagery for geological mapping at Cuprite, Nevada;Chen X.;Remote Sensing of Environment,2007

4. Airborne remote sensing for detection of irrigation canal leakage

5. Vision-based object detection and tracking for autonomous navigation of underwater robots

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