SCIENCE CHINA Information Sciences, Volume 59 , Issue 5 : 050101(2016) https://doi.org/10.1007/s11432-016-5546-4

Growing construction and adaptive evolution of complex software systems

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  • ReceivedDec 29, 2015
  • AcceptedJan 29, 2016
  • PublishedApr 8, 2016


Funded by

National Natural Science Foundation of China(91118008)

National Natural Science Foundation of China(61202117)



This work was supported by National Natural Science Foundation of China (Grant Nos. 91118008, 61202117).


[1] Northrop L, Feiler P, Gabriel R, et al. Ultra-Large-Scale Systems: the Software Challenge of the Future. Carnegie Mellon University Technical Report. 2006. Google Scholar

[2] Maier M W. Syst Eng, 1998, 1: 267-284 Google Scholar

[3] Lee E A. Cyber-physical systems-are computing foundations adequate. In: Proceedings of NSF Workshop on Cyber-Physical Systems: Research Motivation, Techniques and Roadmap, Austin, 2006. 1-9. Google Scholar

[4] Naur P, Randell B. Software Engineering: Report of a Conference Sponsored by the NATO Science Committee. NATO Technical Report. 1969. Google Scholar

[5] Boehm B. A view of 20th and 21st century software engineering. In: Proceedings of International Conference on Software Engineering, Shanghai, 2006. 12-29. Google Scholar

[6] Holland J H. Hidden Order: How Adaptation Builds Complexity. New York: Perseus Books, 1995. Google Scholar

[7] Wang H M, Wang Y F, Tang Y B. J Comput Sci Tech, 2005, 20: 542-551 Google Scholar

[8] Mei H, Huang G, Zhao H Y, et al. Sci China Ser F-Inf Sci, 2006, 49: 702-730 Google Scholar

[9] Wang H M, Ding B, Shi D X, et al. Sci China Inf Sci, 2015, 58: 092103-730 Google Scholar

[10] Sommerville I, Cliff D, Calinescu R, et al. Commun ACM, 2012, 55: 71-77 Google Scholar

[11] Nielsen C B, Larsen P G, Fitzgerald J, et al. ACM Comput Surv, 2015, 48: 18-77 Google Scholar

[12] Mi H B, Wang H M, Zhou Y, et al. IEEE Trans Parall Distr Syst, 2013, 24: 1245-1255 Google Scholar


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