Ranking of Storm Water Harvesting Sites Using Heuristic and Non-Heuristic Weighing Approaches

Pathak, Shray; Ojha, C. S. P.; Zevenbergen, Chris; Garg, Rahul

doi:10.3390/w9090710

Cited by 27 publications

(6 citation statements)

References 33 publications

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“…In this study, the entropy weight method is employed for allotting weights to the landscape metrics of different periods. This method is regarded as a relatively objective and effective method for obtaining the contribution of each index to the landscape disturbance indices [34][35]…”

Section: Landscape Disturbance Index (E I )mentioning

confidence: 99%

Spatiotemporal Variations of Land Use and Landscape Ecological Risk in a Resource-Based City, from Rapid Development to Recession

Zhou¹,

Chang²,

Hu³

et al. 2019

Pol. J. Environ. Stud.

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A healthy ecosystem provides various ecological services for human beings and it is the foundation for the sustainable development of human society. However, human activities and natural disasters inevitably interfere with the evolution of an ecosystem at different scales [1-2]. Ecological risk refers to the possibility that the ecosystem structure and function will be degenerated under external pressure [3]. Ecological risk assessment (ERA) is an effective method for quantifying

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Section: Landscape Disturbance Index (E I )mentioning

confidence: 99%

Spatiotemporal Variations of Land Use and Landscape Ecological Risk in a Resource-Based City, from Rapid Development to Recession

Zhou¹,

Chang²,

Hu³

et al. 2019

Pol. J. Environ. Stud.

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“…The entropy-weight of each assessment index can be calculated by using information entropy based on the degree of variation of each indicator [35,36]. Then, the weight of each index is modified by the method of entropy to obtain a more objective index weight.…”

Section: Correlation Function Valuementioning

confidence: 99%

Intelligent Evaluation System of Water Inrush in Roadway (Tunnel) and Its Application

Shi

Xie

Wen

et al. 2018

Water

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Abstract:The risk assessment of mine water inrush is a complicated theoretical and technical problem that concerns hydrogeology conditions, engineering geology, mining conditions, rock mechanics, etc. To address this problem, a software system for the risk assessment of mine water inrush was established. From the matter-element extension theory, combined with the entropy-weight method, a matter-element extension entropy-weight model was constructed to evaluate mine safety. Eleven indices were determined based on the principles of science, rationality, operability, and representation, and each index was quantitatively graded. This system had built-in abundant cases of typical mine water inrush so users could determine the value of the parameter according to the analogy of water inrush cases with similar conditions. Combined with the analysis of typical water inrush cases, a database of water control measures with a strong advisory function was established. Finally, through the case study of a typical mine, it was found that the results of this study agreed with the practical ones, indicating that this system could improve the accuracy and availability of the risk assessment of mine water inrush.

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“…With the development of the entropy theory in hydrological analysis [7][8][9], many types of information entropy have been developed that can reflect the degree of information correlation between stations. This information entropy has been gradually applied to the design of rain gauge networks with the advantages of efficient calculation, clear theory and high practicability [10][11][12][13]. However, the process of calculating probability density from rainfall data as continuous data is complex when calculating information entropy.…”

Section: Introductionmentioning

confidence: 99%

Comparison and Analysis of Different Discrete Methods and Entropy-Based Methods in Rain Gauge Network Design

Huang

Zhao

Jiang

et al. 2019

Water

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A reasonable rain gauge network layout can provide accurate regional rainfall data and effectively support the monitoring, development and utilization of water resources. Currently, an increasing number of network design methods based on entropy targets are being applied to network design. The discretization of data is a common method of obtaining the probability in calculations of information entropy. To study the application of different discretization methods and different entropy-based methods in the design of rain gauge networks, this paper compares and analyzes 9 design results for rainy season rain gauge networks using three commonly used discretization methods (A1, SC and ST) and three entropy-based network design algorithms (MIMR, HT and HC) from three perspectives: the joint entropy, spatiality, and accuracy of the network, as evaluation indices. The results show that the variation in network information calculated by the A1 and ST methods for rainy season rain gauge data is too large or too small compared to that calculated by the SC method, and also that the MIMR method performs better in terms of spatiality and accuracy than the HC and HT methods. The comparative analysis results provide a reference for the selection of discrete methods and entropy-based objectives in rain gauge network design, and provides a way to explore a more suitable rain gauge network layout scheme.

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Ranking of Storm Water Harvesting Sites Using Heuristic and Non-Heuristic Weighing Approaches

Cited by 27 publications

References 33 publications

Spatiotemporal Variations of Land Use and Landscape Ecological Risk in a Resource-Based City, from Rapid Development to Recession

Spatiotemporal Variations of Land Use and Landscape Ecological Risk in a Resource-Based City, from Rapid Development to Recession

Intelligent Evaluation System of Water Inrush in Roadway (Tunnel) and Its Application

Comparison and Analysis of Different Discrete Methods and Entropy-Based Methods in Rain Gauge Network Design

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