Abstract
Uncertain changes are the principal factors influencing the operation and support of ship-based aircraft. On the basis of analyzing the definition of flexibility and the flexible characteristics in the maintenance support organization, a three-dimensional measurement frame is established. The three dimensionalities, which are responding speed, robust flexibility and adaptable flexibility, are respectively measured by the efficient entropy, quality entropy and changing entropy. And then the comprehensive flexibility measurement method and steps are presented. Lastly, the example studied verifies the feasibility and practicability, and the measurement results of two organizations are evaluated and contrasted. Consequently, the flexibility measurement and optimization of the maintenance support organization can be realized effectively.
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References
Gebauer J, Lee F (2012) Enterprise system flexibility and implementation strategies: aligning theory with evidence from a case study. Inf Syst Manage 25:71–82
Jeffrey J, Mortensen DR (2011) Develo** flexible command and control of airpower. Air Space Power J 25(1):53–63
Mcclaflin SW (2012) System provides flexible, realistic squad training. Infantry 101(2):41–43
Qi YB (2010) Research on supply chain flexibility evolution and the relationship between supply chain flexibility and performance (in Chinese). Jilin University, Jilin
Joseph OA, Sridharan R (2011) Analysis of dynamic due-date assignment models in a flexible manufacturing system. J Manuf Syst 30:28–40
Cheshmehgaz HR, Desa MI, Wibowo A (2013) A flexible three-level logistic network design considering cost and time criteria with a multi-objective evolutionary algorithm. J Intell Manuf 24(2):277–293
Huang MM (2007) Research on flexible resource constrained optimal scheduling problems (in Chinese). Wuhan University of Technology, Wuhan
Xu JH, Yang B, Chu X (2010) Application of structural entropy in aviation equipment support capability system of non-war military operations (in Chinese). Aviat Maintenance Eng 4:57–59
He XJ, Wu YY (2011) Analysis of supply chain system stability based on network structure entropy. In: International conference on mechatronic science, electric engineering and computer. Jilin, pp 1326–1330
Han H, Li JF, Sui H (2011) Research on multi-scheme supportability evaluation based on entropy weight TOPSIS method (in Chinese). Command Control Simul 33(3):61–64
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© 2014 Springer-Verlag Berlin Heidelberg
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Mi, Q., Xu, T., Wang, H., Yang, J. (2014). Multidimensional Flexibility Measurement of Ship-Based Aircraft Maintenance Support Organization Based on Structure Entropy. In: Wang, J. (eds) Proceedings of the First Symposium on Aviation Maintenance and Management-Volume II. Lecture Notes in Electrical Engineering, vol 297. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-54233-6_57
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DOI: https://doi.org/10.1007/978-3-642-54233-6_57
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