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Strategy on the Co-evolution of the Network Information Ecological Chain
Received date: 2015-10-14
Revised date: 2015-11-04
Online published: 2015-11-20
[Purpose/significance] Through the analysis of the target selection, process control and safeguard measures of the co-evolution of the network information ecological chain, it forms a more perfect co-evolutionary strategy to guide the network information ecological chain co-evolution.[Method/process] Based on the existing research results,and the information ecology theory and co-evolution theory by the means of logical analyses, this paper discussed the type and selection strategy ofthe co-evolution of the network information ecological chain, and then put forward the process control and safeguard measures of the co-evolution of the network information ecological chain.[Result/conclusion] The co-evolution targets of the network information ecological chain are shown in three ways: the technology upgrade-oriented,the scale expand-oriented and the function promotion-oriented. To select the targets, we should take the following factors into consideration: changes in the ecological environment of the network information, the current level and the evolution ability of the network information chain. In the process of the co-evolution, the relationships between speed and quality, gradient and mutation, continuity and intermittence, inheritance and innovation should be well dealed with. Safeguards of the network information ecological chain co-evolution include unifying the understanding of all nodes, enhancing the core node's ability of evolution and strengthening the collaborative innovation management of the whole chain.
Lou Cequn , Fang Sheng , Song Wenji . Strategy on the Co-evolution of the Network Information Ecological Chain[J]. Library and Information Service, 2015 , 59(22) : 27 -32 . DOI: 10.13266/j.issn.0252-3116.2015.22.004
[1] Coello C A C, Sierra M R. A Coevolutionary Multi-objective evolutionary algorithm[C]//The 2003 Congress on Evolutionary Computation. Canberra: IEEE Press, 2004: 482-489.
[2] Rosin C,Belew R.New methods for competitive coevolution[J].Evolutionary Computation,1997,5(1): 1-29.
[3] 娄策群,杨小溪,王薇波,等.信息生态系统进化初探[J].图书情报工作,2009,53(9):26-29.
[4] 娄策群,江彦,韩艳芳,等.网络信息生态链形成的主要标志与发育过程[J].情报理论与实践,2015(6):1-5.
[5] 刘健.基于协同进化理论的图书馆生态化机理与技术实现研究[D].长春:吉林大学,2015.
[6] 陆琳.电子商务供应链进化博弈[J].中国物流与采购,2010(1):66-67.
[7] 娄策群,曾丽,庞靓,等.网络信息生态链演进过程研究[J].情报理论与实践,2015(6):10-13.
[8] Persaud A, Kumar U, Kumar V. Coordination structures and innovative performance in global R&D labs[J].Canadian Journal of Administrative Sciences, 2002,19(1): 57-75.
[9] 石春生,梁洪松.组织创新的渐变与突变[J].企业管理,2006(1):87-88.
[10] 爱机控.商城页面暂停,酷派电商策略或重大调整[EB/OL].[2015-11-03].http://www.aijikong.com/news/android_news/newsshow_20773.html.
[11] 吴硕贤.论继承与创新[J].华南理工大学学报(社会科学版),2009(2): 1-3.
[12] 李兴华.协同创新是提高自主创新能力和效率的最佳形式和途径[N].科技日报, 2011-09-22(01).
[13] Ulrich L,Eckhard L.A capability-based framework for open innovation: Complementing absorptive capacity[J]. Journal of Management Studies,2009,46(8):1315-1338.
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