10 November 2021 Groundwater potential assessment mapping from GaoFen-6 satellite data by a deep network model
Xiaoning Zhao, Daqing Wang, Haoli Xu, Yue Shi, Zhengdong Deng, Zhibin Ding, Zhao Lu, Guangyuan Wang, Zijian Cheng
Author Affiliations +
Abstract

Groundwater is an important fresh water resource, which is very important for human survival. We analyzed groundwater potential assessment (GPA) by using back propagation (BP) neural network model and analytic hierarchy process (AHP) model in remote sensing and geographic information system in the north of Zhuhai City, Guangdong Province, China. We have used a variety of factors related to groundwater. These models were based on the relationship between groundwater supply potential and hydrogeological factors. GaoFen-6 remote sensing image was first collected, processed and got lithology, relief, slope, flow accumulation (FA), land temperature, soil humidity and vegetation coverage. Water yield data were collected from 36 well locations. We determined the weight of each index by using BP neural network and AHP. The results were fitted with the actual well water yield. The R2 of BP neural network and AHP models for GPA were 0.89125 and 0.85946, respectively. The results show that BP neural network model can eliminate the influence of subjective factors on the results. It is BP neural network model that more suitable for the development and utilization of groundwater resources than AHP model.

© 2021 Society of Photo-Optical Instrumentation Engineers (SPIE) 1931-3195/2021/$28.00 © 2021 SPIE
Xiaoning Zhao, Daqing Wang, Haoli Xu, Yue Shi, Zhengdong Deng, Zhibin Ding, Zhao Lu, Guangyuan Wang, and Zijian Cheng "Groundwater potential assessment mapping from GaoFen-6 satellite data by a deep network model," Journal of Applied Remote Sensing 16(1), 012009 (10 November 2021). https://doi.org/10.1117/1.JRS.16.012009
Received: 13 May 2021; Accepted: 31 August 2021; Published: 10 November 2021
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KEYWORDS
Neural networks

Remote sensing

Satellites

Associative arrays

Humidity

Data modeling

Water

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