[1]
|
LEEUWARDEN N H. Shared space: Reconciling people, places, traffic[J]. Built Environment, 2008, 34(2): 161-181. |
[2]
|
BOL L, CUNNINGHAM W. The wiki way[M]. Boston, MA: Addison Wesley Press, 2001. |
[3]
|
BRINGSJORD S, TAYLOR J. P=NP[J]. Machine Ethics, 2011, 7(7): 361-374. |
[4]
|
KHATIB F, DIMAIO F. Crystal structure of a monomeric retroviral protease solved by protein folding game players[J]. Nature Structural and Molecular Biology, 2011, 364(19): 1175-1177. |
[5]
|
AXELROD R. The evolution of cooperation[M]. Princeton: Princeton University Press, 1997. |
[6]
|
CHRIS A. The long tail: Why the future of business is selling less of more[M]. New York: Hyperion Press, 2008. |
[7]
|
NICHOLAS C, FOWLER J. Connected: the surprising power of our social networks and how they shape our lives[M]. New York: Brown and Company Press, 2009. |
[8]
|
JAMES S. The wisdom of crowds, economies, societies and nations[M]. New York: Little Brown Press, 2004. |
[9]
|
ROBERT A. The evolution of cooperation[M]. London: Basic Books Press, 2006. |
[10]
|
TAPSCOTT D, WILLIAMS A D. Wikinomics: How mass collaboration changes everything[M]. New York: Portfolio Trade Press .2006. |
[11]
|
ARAL S, ALSTYNE V. Network structure and information advantage[C]//Proceedings of the Academy of Management Conference. Philadelphia. USA: ACM Press, 2007: 3-8. |
[12]
|
DAWBER T. The framingham study: the epidemiology of atherosclerotic disease[M]. Cambridge, MA: Harvard University Press, 1980. |
[13]
|
PENTLAND A. Computational social science[J]. Science, 2009, 323(5915): 721-723. |
[14]
|
PENTLAND A. Pervasive sensing to model political opinions in face-to-face networks[J]. Pervasive Computing, 2011, 14(23): 214-231. |
[15]
|
PENTLAND A. Sensible organizations: Technology and methodology for automatically measuring organizational behavior[J]. IEEE Transactions on Systems, Man, and Cybernetics Part B, 2009, 39(1):43-55. |
[16]
|
GONZALEZ M. Understanding individual human mobility patterns[J]. Nature, 2008, 453: 779-782. |
[17]
|
MONTOULIU R, GATICAL P. Discovering human places of interest from multimodal mobile phone data[J]. Multimed Tools Appl, 2013, 62: 179-207. |
[18]
|
LU Hong. The Jigsaw continuous sensing engine for mobile phone applications[C]//Proceedings of the 8th ACM Conference on Embedded Networked Sensor Systems. Zürich, Switzerland: ACM Press, 2010: 71-84. |
[19]
|
LIU Ji-ming, Autonomy oriented computing(AOC): Formulating computational systems with autonomous components[J]. IEEE Transactions on Systems, Man and Cybernetics, 2005, 35(6): 100-139. |
[20]
|
NELKEN R, YAMANGIL E. Mining wikipedia's article revision history for training computational linguistics algorithms[C]//Proceedings of the 1st AAAI Workshop on Wikipedia and Artificial Intelligence. Chicago, USA: ACM Press, 2008:423-430. |
[21]
|
SCHAERF A. A survey of automated time tabling[J]. Artificial Intelligence Review, 2009, 16(48): 87-127. |
[22]
|
DELARK DE WERRA. Heuristics for graph coloring[J]. Computing Supplementum, 1990, 7(2): 191-208. |
[23]
|
马艳萍, 吴晓军. 解决图着色问题的一种新禁忌搜索算 法[J]. 计算机应用与软件, 2012, 29(2): 279-281. MA Yan-ping, WU Xiao-jun. A new tabu search algorithm of graph coloring[J]. Computer Applications and Software, 2012, 29(2): 279-281. |
[24]
|
徐杰, 杜文, 李宗平, 等. 基于模拟退火算法和图着色 的调车机车安排研究[J]. 铁道学报, 2003, 25(3): 24-30. XU Jie, DU Wen, LI Zong-ping, et al. Study on the plan of using shunting locomotives based on simulated annealing algorithm and graph coloring[J]. Journal of The China Railway Society, 2003, 25(3): 24-30. |
[25]
|
PHILIPE G, HAO Jin-kao. Hybrid evolutionary algorithms for graph coloring[J]. Journal of Combinatorial Optimization, 1999, 3(4): 379-397. |
[26]
|
RAILSBACK S. Agent-based and individual-based modeling: a practical introduction[M]. Cambridge: Princeton University Press, 2011. |