Роль информационно-термодинамических моделей распределения качеств управления в проектировании квантового алгоритма управления самоорганизацией

Основное содержимое статьи

И. А. Бархатова

Аннотация

Описываются различные процессы самоорганизации с физической, информационной и алгоритмической (квантового программирования) точек зрения. Рассматривается роль типов квантовой корреляции и информационного обмена в самоорганизации при проектировании структуры квантовой самоорганизации. Приводится общий квантовый алгоритм проектирования самоорганизации, а также частный случай  данного подхода. Типы квантовых операторов таких, как суперпозиция, запутанные состояния, интерференция в различных моделях самоорганизации, рассматриваются с точки зрения квантового программирования. Физическая интерпретация процесса самоорганизации на квантовом уровне описывается на основе информационной модели извлечения и обмена квантовой скрытой информации в классических состояниях. Даны новые типы квантовой корреляции и информационного обмена.

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Barchatova , I.A. 2021. Роль информационно-термодинамических моделей распределения качеств управления в проектировании квантового алгоритма управления самоорганизацией. Системный анализ в науке и образовании. 3 (сен. 2021), 1–83.
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Ulyanov S.V., Litvintseva L.V., Ulyanov S.S. Quantum swarm model of self-organization process based on quantum fuzzy inference and robust wise control design // Proc. 7th International Conference on Application of Fuzzy Systems and Soft Computing (ICAFS’2006). – Siegen, Germany, September 13-14, 2006. – Pp. 10-19.

Camazine S., Deneubourg J.-L. , Franks N.R. , Sneyd J. , Theraulaz G., Bonabeau E. Self-organization in biological systems. – Princeton University Press, 2003.

Hemelrijk C.K. (Ed.) Self-organisation and evolution of social systems. – UK: Cambridge University Press, 2005.

Helbing D. Traffic and related self-driven many-particle systems // Reviews of Modern Physics. – 2001. – Vol. 73. – № 4. – Pp.1067-1141.

Czap H., Unland R., Branki C., Tianfield H. Self-organization and autonomic informatics. – Springer Verlag (Frontiers in Artificial Intelligence and Applications), 2005. – Vol. 135.

Solé R. V., Bascompte J. Self-organization in complex ecosystems. – Princeton University Press, 2006.

Haken H. Information and self-organization: A macroscopic approach to complex systems // Springer Verlag. – Ed. 3rd. – 2006.

Mamei M., Menezes R., Tolksdorf R., Zambonelli F. Case studies for self-organization in computer science // Journal of Systems Architecture. – 2006. – Vol. 52. – № 8-9. – Pp. 443-460.

Detrain C., Deneubourg J.-L. Self-organized structures in a superorganism: do ants «behave» like molecules? // Physics of Life Reviews. – 2006. – Vol. 3. – № 3. – Pp. 162-187.

Ben-Jacob E., Levine H. Self-engineering capabilities of bacteria // J. R. Soc. Interface. – 2006. – Vol. 3. – № 2. – Pp. 197-214.

Ulyanov S.V., Litvintseva L.V., Ulyanov I.S., Ulyanov S.S. Quantum information and quantum computational intelligence: Quantum optimal control and filtering – Stability, robustness, and self-organization models in nanotechnologies // Note del Polo Ricerca, Università degli Studi di Milano. – Milan, 2005. – Vol. 82.

Parunak H., Brueckner S. Entropy and self-organization in multi-agent systems // Proc. of the Fifth International Conference on Autonomous Agents. – Montreal: ACM Press, 2001. – Pp. 124-130.

Guerin S., Kunkle D. Emergence of constraint in self-organizing systems // Nonlinear Dynamics, Psychology, and Life Sciences. – 2004. – Vol. 8. – №. 2. – Pp. 131-146.

Baldassarre G., Trianni V., Bonani M., Mondada F., Dorigo M., Nolfi S. Self-organized coordinated motion in groups of physically connected robots // IEEE Transactions on Systems, Man and Cybernetics (Part B: Cybernetics). – 2007. – Vol. 37. – № 1. – Pp. 224-239.

Trianni V. On the evolution of self-organizing behaviors in a swarm of autonomous robots // Ph.D. Thesis, Universite Libre de Bruxelles Universite d'Europe. – IRIDIA. – 2005-2006.

Prokopenko M., Gerasimov V., Tanev I. Evolving spatiotemporal coordination in a modular robotic system // Lecture Notes in Computer Science (LNCS), [Proc. 9th International Conference on the Simulation of Adaptive Behavior (SAB 2006): From Animals to Animats]. – 2006. – Vol. 4095. – Pp. 558569.

Mathews G. , Durrant-Whyte H., Prokopenko M. Measuring global behavior of multi-agent systems from pair-wise mutual information // Lecture Notes in Computer Science (LNCS). – 2005. – Vol. 3684. – Pp. 587-594.

Raichman N., Gabay T., Katsir Y., Shapira Y., Ben-Jacob E. Engineered self organization in natural and man-made systems // Natural and man-made systems in continuous media and discreet systems (Ed. D. J. Bergman & E. Inan). – NY: Kluwer, 2004.

Adami Ch. Information theory in molecular biology // Physics of Life Reviews. – 2004. – Vol. 1. – № 1. – Pp. 3-22.

Gershenson C. Design and control of self-organizing systems // PhD Thesis. – Vrije Universiteit Brussel, 2006.

Ch.-Y. Pang. Using quantum state to represent vector and matrix // arXiv: quant-ph/0612061 v1. – 2006.

Nielsen M.A., Chuang I.L. Quantum Computation and Quantum Information. – UK: Cambridge Univ. Press, 2000.

Ulyanov S.V., Litvintseva L.V., Ulyanov I.S., Ulyanov S.S. Quantum information and quantum computational intelligence: Quantum decision making and search algorithms // Note del Polo Ricerca, Università degli Studi di Milano (Polo Didattico e di Ricerca di Crema). – Milan. – 2005. – Vol. 84-85.

Yu.I. Ozhigov. About mathematical apparatus of many body quantum dynamics // arXiv: quantph/0604055 v1. – 2006.

Zak M. Entanglement-based self-organization // Chaos, Solitons & Fractals. – 2002. – Vol. 14. – № 5. – Pp. 745-758.

A.J. van der Schaft. Theory of port-Hamiltonian systems (Lectures 1, 2, and 3) // Network Modeling and Control of Physical Systems. – DISC, 2005.

Haddad W.M., Chellaboina V., Nersesov S.G. Impulsive and Hybrid Dynamical Systems: Stability, Dissipativity, and Control // Princeton Series in Applied Mathematics, Princeton. – NJ: Princeton University Press, 2006.

Haddad W. M., Chellaboina V., Nersesov S. G. Thermodynamics: A Dynamical Systems Approach. – Princeton Series in Applied Mathematics Princeton. – NJ: Princeton University Press, 2005.

Ulyanov S.V. Self-organized control system: US patent, №. 6, 411, 944, 1997. – see also «Selforganization fuzzy chaos intelligent controller for robotic unicycle: A new benchmark in AI control» // Proceedings 5th Intelligent System Symposium. – Tokyo. – Sep. 29 -30, 1995. – Pp.41-46.

Ulyanov S.V., Panfilov S.A. System and method for stochastic simulation of nonlinear dynamic systems with high degree of freedom for soft computing application: US patent, № 0039555 A1, Pub. Date: Feb. 26, 2004.

Demetriusa L., Manke T. Robustness and network evolution – an entropic principle // Physica. –2005. – Vol. A346. – Pp. 682-696.

Ulyanov S.V., Litvintseva L.V., Kurawaki I. et al. Soft computing design of intelligent control systems in micro-nano-robotics and mechatronics // Soft Computing. – 2000. – Vol. 4. – № 2. – Pp. 147-156.

Romero K. M. F., Parreira J. E., Souza L. A. M., Nemes M. C., Wreszinski W. F. Analytical relation between entropy production and quantum Lyapunov exponents for Gaussian bipartite systems // arXiv: quant-ph/0703200v1. – 2007.

Ulyanov S.V., Litvintseva L.V. Design of self-organized intelligent control systems based on quantum fuzzy inference: Intelligent system of systems engineering approach // IEEE International Conference on Systems, Man and Cybernetics. – 2005. – Hawaii, USA, 10-12 Oct. 2005. – Vol. 4. – Pp. 3835-3840.

Ulyanov S.V., Litvintseva L.V., Ulyanov S.S. et al. Self-organization principle and robust wise control design based on quantum fuzzy inference // Proceedings of Internat. Conf. ICSCCW’2005. – Antalya, Turkey. – 2005. – Pp. 16-43.

Litvintseva L.V., Ulyanov S.V., Takahashi K. et al. Design of self-organized robust wise control systems based on quantum fuzzy inference // Proceedings of World Automation Congress (WAC’2006): Soft computing with Industrial Applications (ISSCI’2006). – Vol. 5. – Budapest, Hungary. – 2006.

Mannucci M.A. Quantum fuzzy sets: Blending fuzzy set theory and quantum computation // arXiv: cs/0604064v1 [cs. LO]. – 2006.

Ghisi F., Ulyanov S.V. The information role of entanglement and interference in Shor quantum algorithm gate dynamics // Journal of Modern Optics. – 2000. – Vol. 47. – № 12. – Pp. 1012-1023.

Zurek W.H. Probabilities from entanglement, Born’s rule pk k 2 from envariance // Physical Review. – 2005 – Vol. A71. – № 5. – Pp. 05237.

DiVincenzo D.P., Horodecki M., Leung D.W., Smolin J.A., Terhal B.M. Locking classical correlation in quantum states // Physical Review Letters. – Vol. 92 – № 6. – 2004. – Pp. 067902.

Williams S.R., Evans D.J., Mittag E. Negative entropy production in oscillatory processes // arXiv: cond-mat/0612014 v1. – 2006.

Ulyanov S.V. System and method for control using quantum soft computing: US patent. № 6,578,018B1, 2003.

Ulyanov S.V., Litvintseva L.V., Ulyanov S.S. et al. Computational intelligence with quantum game’s approach and robust decision-making in communication information uncertainty // Proceedings of Internat. Conf. on Computational Intelligence (ICCI’2004). – Nicosis, North Cyprus, 2004. – Pp. 172-187.

Ulyanov S.V., Takahashi K., Litvintseva L.V. et al. Quantum soft computing via robust control: Classical efficient simulation of wise quantum control in non-linear dynamic systems based on quantum game gates // Proceedings of 2nd Internat. Conf. on Soft Computing, and Computing with Words in System Analysis, Decision and Control (ICSCCW’2003). – Antalya, Turkey. – 2003. – Pp. 11-41.

Ulyanov S.V., Degli Antoni G., Yamafuji K. et al. Physical limits and information bounds of microcontrol. Pt 2: Quantum soft computing and quantum search algorithms // Proceedings Internat. Symp. Micro-machine and Human Science (MHS’98). – Nagoya, Japan, 1998. – Pp. 217-224.

Ulyanov S.V., Kurawaki I., Litvintseva L.V. et al. Applied quantum soft computing for optimization of KB structures in fuzzy controllers: Introduction // Proceedings World Cong. on Intelligent Systems on Industrial Automation (WCIS’2000). – Tashkent, Uzbekistan, 2000. – Pp. 34-57.

Ulyanov S.V., Litvintseva L.V., Kurawaki I. et al. Applied quantum soft computing for global optimization and robust control design: Methodological approach // Proceedings 4th Internat. Conf. on Applications of Fuzzy Systems and Soft Computing (ICAFS’ 2000). – Siegen, Germany. – 2000. – Pp. 190-213.

Ulyanov S.V., Takahashi K., Kurawaki I. et al. Quantum soft computing: Quantum global optimization and quantum learning processes – Application in AI, informatics and intelligent control processes // Proceedings of the 7th World Multi-Conference on Systemics, Cybernetics and Informatics (SCI’2003). – Vol. 7. – Florida, Orlando, USA. – 2003. – Pp. 422-427.

Ulyanov S.V. Quantum soft computing in control process design: Quantum genetic algorithms and quantum neural network approaches // Proceedings of World Automation Congress (WAC’2004): Soft computing with Industrial Applications (ISSCI’2004). – Seville, Spain, 2004. – Vol. 17. – Pp. 99-104.

Eigler D. M., Lutz C. P., Crommie M. F. Information transport and computation in nanometre-scale structures // Phil. Trans. R. Soc. Lond. – 2004. – Vol. A362. – Pp. 1135-1147.

Correa A.A., Reboredo F.A., Balseiro C.A. Quantum corral wave-function engineering // Physical Review. – 2005. – Vol. B71. – No 3. – Pp. 035418. – (see also arXiv: cond-mat/0408585 v1, 2004).

Fiete G.A., Heller E.J. Theory of quantum corrals and quantum mirages // Reviews of Modern Physics. – 2003. – Vol. 75. – № 3. – Pp. 933-948.

Gorodetskii V. I. Self-organization and multiagent systems: I. Models of multiagent self-organization // Journal of Computer and Systems Sciences International. – 2012. – Vol. 51. – № 2.– Pp. 256-281.

Gorodetskii V. I. Self-organization and multiagent systems: II. Applications and the development technology // Journal of Computer and Systems Sciences International. – 2012. – Vol. 51. – № 3. – Pp. 391409.

Shtovba S. D. Ant’s colony algorithm optimization // Masters solutions. – 2003. – № 4. – Pp. 70-75.

Kasinger H. Design and Operation of Efficient Self-Organizing Systems // Dissertation for the degree of Doctor of Natural Sciences (Dr. rer. nat.). University of Augsburg Department of Computer Science Programming Distributed Systems Lab. – July 2010.

Feh´erv´ari I. On Evolving Self-organizing Technical Systems // DISSERTATION zur Erlangung des akademischen Grades Doktor der technischen Wissenschaften Alpen-Adria-Universit¨at Klagenfurt Fakult¨at fur Technische Wissenschaften. – November 2013.

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