Application of TOPSIS Model Based on Vague Set Entropy in the Evaluation of Groundwater Quality

Wen Zhong Yu; De Shan Tang

doi:10.4028/www.scientific.net/AMR.712-715.452

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 712-715Application of TOPSIS Model Based on Vague Set...

Application of TOPSIS Model Based on Vague Set Entropy in the Evaluation of Groundwater Quality

Abstract:

Groundwater quality assessment had important guiding significance on sustainable use of groundwater resources. In order to avoid the subjective judgment on the weight of each index, this article used the Vague set entropy theory to determine the weight of each index, combined with the TOPSIS method, it established the TOPSIS groundwater quality evaluation model based on Vague set entroy. Finally, this model was applied to groundwater quality evaluation in Tailan River Irrigation District, the evaluation results matched with the actual situation. The results showed that the evaluation process of this model was reasonable and scientific, it provided a new idea for groundwater quality assessment.

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Periodical:

Advanced Materials Research (Volumes 712-715)

Pages:

452-456

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.712-715.452

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Online since:

June 2013

Authors:

Wen Zhong Yu, De Shan Tang

Keywords:

Entroy, Ground Water, TOPSIS, Vague Set, Water Quality Evaluation

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References

[1] Zhang X. Q., Liang C., Liu H. Q., Application of Attribute Recognition Model Based on Coefficient of Entropy to Comprehensive Evaluation of Groundwater Quality, Journal of Sichuan University (Engineering Science Edition), 37(3), pp.28-31, 2005.

Google Scholar

[2] Yang Y. Z., Meng X. Z., Deng Y. F., Technique for Order Preference by Similarity to Ideal Solution (TOPSIS) based on Ameliorated Entropy Weight on the Evaluation of Groundwater Quality, Journal of Zhengzhou University (Engineering Science), 32(2), pp.121-124, 2011.

Google Scholar

[3] Li Y. H., Zhou J. Z., Modified Entropy Method and Vague Set Based Multi-objective Flood Control Decision Making Approach, Water Resources and Power, 28(6), pp.32-35, 2010.

Google Scholar

[4] Zhang J. Q., Huang D. C., Fuzzy TOPSIS Multi-attribute Decision Method based on the Entropy Weight of Vague Set, Journal of Zhengjiang University of Technology, 40(5), pp.524-527, 2012.

Google Scholar

[5] Gao M. M., Sun T., Constraint Conditions and New Constructional Method of Vague Entropy, Computer Engineering and Applications, 48(18), pp.27-31, 2012.

Google Scholar

[6] Wang W. C., Xu D. M., Qiu L., Multi-objective Variable Fuzzy Optimization Method for Selection of Normal Water Level of Reservoir, Water Resources and Power, 30(2), pp.53-55, 2012.

Google Scholar