参考文献:1.Bollobas, B.: Extremal Graph Theory. Dover, New York (2004)MATH 2.Brinkmann, G.: Generating Cubic Graphs Faster Than Isomorphism Checking, Preprint 92–047 SFB 343. University of Bielefeld, Bielefeld (1992) 3.Brinkmann, G., Meringer, M.: The smallest 4-regular 4-chromatic graphs with girth 5. Graph Theor. Notes NY 32, 40–41 (1997)MathSciNet 4.Conaty, B., Ram, C.: The Talent Masters: Why Smart Leaders Put People Before Numbers. Crown Publishing Group, New York (2011) 5.Deng, J.L.: Control problems of grey systems. Syst. Control Lett 5, 288–294 (1982)MATH 6.Deng, J.L.: Introduction to grey system theory. J. Grey Syst. 1, 1–24 (1985)MathSciNet MATH 7.Hu, Y.C.: Grey relational analysis and radical basis function network for determining costs in learning sequences. Appl. Math. Comput. 184, 291–299 (2007)MathSciNet CrossRef MATH 8.Konecny, J.: Isotone fuzzy Galois connections with hedges. Inf. Sci. 181, 1804–1817 (2011)MathSciNet CrossRef MATH 9.Li, G.D., Daisuke Yamaguchi, D.: A grey-based decision-making approach to the supplier selection problem. Math. Comput. Model. 46, 573–581 (2007)CrossRef 10.Maharry, J.: A splitter for graphs with no petersen family minor. J. Comb. Theor. Ser. B 72, 136–139 (1998)MathSciNet CrossRef MATH 11.García-Pardo, F., Cabrera, I.P., Cordero, P., Ojeda-Aciego, M., Rodríguez, F.J.: Generating isotone galois connections on an unstructured codomain. In: Laurent, A., Strauss, O., Bouchon-Meunier, B., Yager, R.R. (eds.) IPMU 2014. CCIS, vol. 444, pp. 91–99. Springer, Heidelberg (2014). doi:10.1007/978-3-319-08852-5_10 12.Rahimnia, F., Moghadasian, M., Mashreghi, E.: Application of grey theory organizational approach to evaluation of organizational vision. Grey Syst. Theor. Appl. 1(1), 33–46 (2011)CrossRef 13.Robertson, N., Seymour, P., Thomas, R.: Petersen family minors. J. Comb. Theor. Ser. B 64(2), 155–184 (1995)MathSciNet CrossRef MATH 14.Xie, N.-M., Liu, S.-F.: Novel methods on comparing grey numbers. Appl. Math. Model. 34(2), 415–423 (2010)MathSciNet CrossRef MATH
作者单位:Sylvia Encheva (14)
14. Stord/Haugesund University College, Bjørnsonsg. 45, 5528, Haugesund, Norway
丛书名:Cooperative Design, Visualization, and Engineering
ISBN:978-3-319-46771-9
刊物类别:Computer Science
刊物主题:Artificial Intelligence and Robotics Computer Communication Networks Software Engineering Data Encryption Database Management Computation by Abstract Devices Algorithm Analysis and Problem Complexity
出版者:Springer Berlin / Heidelberg
ISSN:1611-3349
卷排序:9929
文摘
Merging organizations face a number of challenges related to creation of a new establishment. Short deadlines put serious pressure on those, responsible for planning and implementing all possible types of changes. The main issue we direct attention on in this work is concerned with placing employees in new units according to their competencies in a well-organized and controlled way. Isotone Galois connections are used to secure a systematic approach for establishing a correspondence between employees’ competencies and units’ contents.