Stability of ecological industry chain: an entropy model approach
Date
2016
Authors
Wang, Q.
Qiu, S.
Yuan, X.
Zuo, J.
Cao, D.
Hong, J.
Zhang, J.
Dong, Y.
Zheng, Y.
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Advisors
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Journal article
Citation
Environmental Science and Pollution Research, 2016; 23(14):14316-14326
Statement of Responsibility
Qingsong Wang, Shishou Qiu, Xueliang Yuan, Jian Zuo, Dayong Cao, Jinglan Hong, Jian Zhang, Yong Dong, Ying Zheng
Conference Name
Abstract
A novel methodology is proposed in this study to examine the stability of ecological industry chain network based on entropy theory. This methodology is developed according to the associated dissipative structure characteristics, i.e., complexity, openness, and nonlinear. As defined in the methodology, network organization is the object while the main focus is the identification of core enterprises and core industry chains. It is proposed that the chain network should be established around the core enterprise while supplementation to the core industry chain helps to improve system stability, which is verified quantitatively. Relational entropy model can be used to identify core enterprise and core eco-industry chain. It could determine the core of the network organization and core eco-industry chain through the link form and direction of node enterprises. Similarly, the conductive mechanism of different node enterprises can be examined quantitatively despite the absence of key data. Structural entropy model can be employed to solve the problem of order degree for network organization. Results showed that the stability of the entire system could be enhanced by the supplemented chain around the core enterprise in eco-industry chain network organization. As a result, the sustainability of the entire system could be further improved.
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© Springer-Verlag Berlin Heidelberg 2016