Spatial Management of Distributed Social Systems

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DOI: https://doi.org/10.30564/jcsr.v2i3.2077

Abstract:

The paper describes the use of invented, developed, and tested in different countries of the high-level spatial grasp model and technology capable of solving important problems in large social systems, which may be represented as dynamic, self-evolving and distributed social networks. The approach allows us to find important solutions on a holistic level by spatial navigation and parallel pattern matching of social networks with active self-propagating scenarios represented in a special recursive language. This approach effectively hides inside the distributed and networked language implementation traditional system management routines, often providing hundreds of times shorter and simpler high-level solution code. The paper highlights the demands to efficient simulation of social systems, briefs the technology used, and provides some programming examples for solutions of practical problems.

References:

[1] Baraldi, C., Corsi, G.. Social Systems Theory. in: N. Luhmann. Springer Briefs in Education. Springer, Cham, 2017. [2] Ghoshal, G., Mangioni, G., Menezes R. et al. Social System as Complex Networks. Social Network Analysis and Mining, 2014, 4: 238. [3] Denny, M. Social Network Analysis, Institute for Social Science Research, University of Massachusetts Amherst, 2014. [4] Mangal, V., Gadh, V. Systems Theory and Social Networking:Investigation of Systems Theory principles in Web 2.0 Social Network Systems. International Journal of Business and Commerce, 2013, 3. [5] Sapaty, P. Complexity in International Security: A Holistic Spatial Approach, Emerald Publishing, 2019. [6] Sapaty, P. Holistic Analysis and Management of Distributed Social Systems, Springer, 2018. [7] Sapaty, P. Managing Distributed Dynamic Systems with Spatial Grasp Technology, Springer, 2017. [8] Sapaty, P. Distributed Human Terrain Operations for Solving National and International Problems”, International Relations and Diplomacy, 2014, 2(9). [9] Sapaty, P. Ruling Distributed Dynamic Worlds. John Wiley & Sons, New York, 2005. [10] Sapaty, P. Mobile Processing in Distributed and Open Environments, John Wiley & Sons, New York, 1999. [11] Sapaty, P. A distributed processing system, European Patent No. 0389655, Publ. 10.11.93, European Patent Office, 1993.