国家自然科学基金(61421001)
[1] Qian X S, Yu J Y, Dai R W. A new discipline of science---the study of open complex giant system and its methodology. Chin J Nat, 1990, 1: 3--10+64. Google Scholar
[2] Wang Y. System Theory and Artificial System Design. Beijing: Beijing Institute of Technology Press, 2019. 132--158. Google Scholar
[3] Liu G, Wang Y, Zhou S Y. An outline of system theory based on artificial system. Syst Eng Electron, 1998, 7: 27--31. Google Scholar
[4] Thom R. Structural Stability and Morphogenesis. Sichuan: Sichuan Education Press, 1992. 1--438. Google Scholar
[5] Prochazka A, Gillard D, Bennett D J. Implications of positive feedback in the control of movement.. J NeuroPhysiol, 1997, 77: 3237-3251 CrossRef PubMed Google Scholar
[6] Ma L, Luo Y Q, Li S Y. Bifurcation analysis of a two-species diffusive model. Appl Math Lett, 2019, 96: 236-242 CrossRef Google Scholar
[7] Baker G, McRobie F A, Thompson J M T. Implications of chaos theory for engineering science. Proc Institution Mech Engineers Part C-J Mech Eng Sci, 1997, 211: 349-363 CrossRef Google Scholar
[8] Zhao H, Wu Q L. Application study of fractal theory in mechanical transmission. Chin J Mech Eng, 2016, 29: 871-879 CrossRef Google Scholar
[9] Ji F M, Luo L F. A hypercycle theory of proliferation of viruses and resistance to the viruses of transgenic plant.. J Theor Biol, 2000, 204: 453-465 CrossRef PubMed Google Scholar
[10] Jantsch E. The Self-organizing Universe. Oxford: Pergamon Press Ltd., 1980. 1--343. Google Scholar
[11] Haken H. Erfolgsgeheimnisse der natur synergetik: die lehre vom zusammenwirken. Shanghai: Shanghai Translation Publishing House, 2013. 50--60. Google Scholar
[12] Prigogine I, Stengers I. Order Out of Chaos. Shanghai: Shanghai Translation Publishing House, 2005. 70--80. Google Scholar
[13] Holland J H. Hidden Order: How Adaptation Builds Complexity. Shanghai: Shanghai Scientific and Technological Education Publishing House, 2011. 90--100. Google Scholar
[14] Wang Y. A novel method of constructing complex information system--multi-living agent method. Eng Sci, 2006, 8: 29--32+57. Google Scholar
[15] Wang Y, Tao R, Li B Z. Using the multi-living agent concept to investigate complex information systems. Sci Sin Inform, 2008, 38: 2020--2037. Google Scholar
[16] Wang Y, Tao R, Li B Z. Multi-living agent methods for the function enhancement of the information system. Sci Sin Inform, 2013, 43: 821-841 CrossRef Google Scholar
Figure 1
Function topology structure of MLA system
Figure 2
The framework of MLA
Figure 3
Artificial system architecture adjustment method based on MLA
Figure 4
P2V-7
Figure 5
(Color online) Geometric model of the tracking of P2V-7 by J-5
Figure 8
(Color online) Combat area
Figure 9
(Color online) The shooting probability of anti-aircraft guns
Figure 10
The combat model of anti-aircraft guns with control agent
Figure 11
(Color online) The shooting probability of anti-aircraft guns under the living retention situation
| Linear velocity $v\left(~{{{\rm{m}}\mathord{/ }{\rm{s}}}}\right)$ | Angular velocity $\omega\left(~{{{\rm{rad}}\mathord{/ }{\rm{s}}}}\right)$ | Radius of trajectory $R({\rm{m}})$ | |
| J-5 | 250 | 0.0784 | 3188.8 |
| P2V-7 | 80 | 0.2450 | 326.5 |
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