logo

SCIENTIA SINICA Informationis, Volume 49 , Issue 12 : 1535-1544(2019) https://doi.org/10.1360/SSI-2019-0109

Application layer extension of system dissipative self-organization theory—example analysis of multi-living agent method

More info
  • ReceivedMay 30, 2019
  • AcceptedSep 16, 2019
  • PublishedDec 16, 2019

Abstract


Funded by

国家自然科学基金(61421001)


References

[1] Prigogine I, Stengers I. Order Out of Chaos. New York: Bantam Books Inc., 1984. Google Scholar

[2] Haken H. Synergetics. IEEE Circuits & Devices Magazine, 1977, 28(9):412-414. Google Scholar

[3] Qian X S, Yu J Y, Dai R W. A new discioline of science---the study of open complex giant system and its methodology. Chin J Nat, 1990, 01: 3-10+64. Google Scholar

[4] Wang Y. A novel method of constructing complex information system---multi-living agent method. Eng Sci, 2006, 8(5):29-32. Google Scholar

[5] Wang Y, Tao R, Li B Z. Using the multi-living agent concept to investigate complex information systems. Sci China Ser E-Inf Sci, 2008, 38(12): 2020-2037. Google Scholar

[6] Wang Y, Tao R, Li B Z, et al. Multi-living agent methods for the function enhancement of the information system. Sci ChinaInf Sci, 2013,43: 821-841. Google Scholar

[7] Wang Y, Tao R, Zhang H. Research on distributed intrusion detection system based on multi-living agent. Sci ChinaInf Sci, 2010, 40(4):613-623. Google Scholar

[8] Wu J G. Research on TT&C network system architecture based on multi-living agents theory. Dissertation for Ph.D. Degree. Beijing: Beijing Institute of Technology, 2018. Google Scholar

[9] Wang Y. System Theory and Artificial System Design. Beijing: Beijing Institute of Technology Press, 2019. 257--260. Google Scholar

[10] Ye Z H, Chen G F, Zhu G W, et al. Detection results of space particle environment over Fengyun-1 (B) satellite. Scientia Sinica(Mathematica), 1993, 5: 539--544. Google Scholar

  • Figure 1

    Five-factor comprehensive “other-organization” driven evolution model diagram

  • Table 1   Scalable index system for artificial system
    Performance dimension Economic cost dimension Application survival Development
    time dimension space dimension
    Performance fractional Development cost Association performance Principles of complex
    dimension fractional dimension fractional dimension social development
    and evolution
    Operational performance Manufacturing cost Association social Coevolutionary survival
    fractional dimension fractional dimension environment fractional of the fittest
    dimension
    Antagonistic performance Using cost Association competitive Reserved development
    fractional dimension fractional dimension survival time space
    fractional dimension
qqqq

Contact and support