350 rub
Journal Neurocomputers №12 for 2013 г.
Article in number:
Information aspects of psychosomatic interactions. Psychophysiological and quantum basis of information processes
Authors:
G. M. Alakoz - Dr.Sc. (Eng.), Professor, Russian academy of rocket and artillery sciences councilor. E-mail: gen1nor2@gmail.com
A. V. Kotov - Dr.Sc. (Med.), Professor, Head of behavior system researches department, P.K. Anokhin Research Institute of normal physiology of Russian Academy of Medical Sciences, Head of normal physiology department in IME (Institute of Medical Education) in Yaroslav-the-Wise Novgorod State University. E-mail: lab_motiv@mail.ru
T. N. Loseva - Ph.D. (Med.), Leading Research Scientist of motivation physiology laboratory, P.K. Anokhin Research Institute of normal physiology of Russian Academy of Medical Sciences. E-mail: lab_motiv@mail.ru
Abstract:
Conducted analysis of approaches of domestic and foreign scholars, who actually predetermined modern self-knowledge problems solutions means, shows: 1. Regardless of technological level nano-, bio-, information and cognitive technologies convergence: - is hampered by psychosomatic activity material processes control problem, in which Russia has certain handicap owing to domestic physiology school achievements, spearheaded by I.M. Sechenov; - inevitably results in quantum paradigms spreading on unquantized systems and in living systems it should cover phenomenological chain: quantum biology, quantum physiology, quantum psychology and quantum sociology. Each chain loop is presented by semi-open system with selective mass, energy and information exchange with environment. 2. Dating back to the time of I.M. Sechenov Russian science about living, based on the whole material natural deep structuring, was occupied with research of complicated complex interactions in this phenomenological chain, this means: between psychic and physiologic processes, physiologic and biologic processes, biologic and physicochemical ones. That-s why nowadays so popular quantum principles straight transfer to the psychic processes level and vice versa is counterproductive. Who needs the brain, which according to E. Schrödinger responds on any state change of each its atom, and who need the quantum computer, in which subjective symbolic algebra at least depends on climatic conditions and the whole history of solved by it problems? 3. One of the key problems of defining living formal models is associated with conflict built into continuity of individuals growth, evolution and existence processes. The objectivity of the conflict is stipulated by the fact that processes supporting growth and evolution are inevitably associated with continuous structural-functional changes in organism, and processes supporting existence are associated with their preservation which quite conditional and practicable only accurate within conformation variations of biologic macromolecules structure. 4. In spite of domestic physiology upon P.K. Anokhin did not use term "information" explicitly, all the designs of "psychosomatic interactions information context" date back to the time of I.M. Sechenov and his successors papers, at that: - "word" and the whole information storing in human and animal central nervous system, really regarded by them as form-generating and system-generating "force" capable to substitute external and internal irritants, ?? provoking (by I.P. Pavlov - authors remark) the same organism actions as them assignable irritant provokes?; - transformation of "quantum paradigms" to "unquantized systems" over phenomenological chain is impossible to implement without correct translation and interpretation system of basic principles and experimental results, which probably exists and are used by living organisms in their day-to-day psychosomatic activity; - the key problem of correct multilevel and multiloop translation and interpretation in living organisms is associated with isolation overcoming, therefore also with overcoming subjective symbolic algebra "cryptographic security" (by V.M. Bechterev), used by different individuals in their psychosomatic interactions. 5. Once and for all settle definite correspondence between information on the one side and form-generating and system-generating "force" on the other is quite difficult, because this correspondence revels each time in sophisticated and changing conditions of continuous interaction between human organism and physical and social environment. This leads to the situation that each bit of information, circulating in organism, has permanent changing material-energetic "value".
Pages: 3-14
References

  1. Roco M., Bainbridge W. Converging Technologies for Improving Human Performance: Nanotechnology, Biotechnology, Information Technology and Cognitive Science. Arlington. 2004.
  2. Gejzenberg V. Fizika i filosofiya. Chast' i czeloe. M.: Nauka. 1989.
  3. Kratkij psixologicheskij slovar'. M.: Izd-vo politicheskoj literatury'. 1985.
  4. Topolyanskij V.D., Strukova M.V. Psixosomaticheskie rasstrojstva. M.: Mediczina. 1986.
  5. Suvorov V.V. Intellekt i kreativnost' v postneklassicheskoj nauke. M.: Izd-vo MGU. 2006.
  6. Sechenov I.M. Komu i kak razrabaty'vat' psixologiyu - // Sobr. soch. I.M. Sechenova. 1908.
  7. Menskij M.B. Kvantovaya mexanika: novy'e e'ksperimenty', novy'e prilozheniya i novy'e formulirovki stary'x voprosov //Uspexi fizicheskix nauk. 2000. № 6. S. 631-648.
  8. Bexterev V.M. Ob''ektivnoe izuchenie lichnosti. Peterburg-Berlin-Moskva: Izd-vo Z.I. Grzhebina. 1925.
  9. Pavlov I.P. Lekczii o rabote bol'shix polusharij // Poln. sobr. soch. Izd-vo AN SSSR. 1951. T. 4. S. 429.
  10. Anoxin P.K. Biologiya i nejrofiziologiya uslovnogo refleksa. M.: Mediczina. 1968.
  11. Anoxin P.K. Kibernetika funkczional'ny'x sistem (Izbr. trudy') /Pod red. K.V. Sudakova. M.: Mediczina. 1998.
  12. Manin Ju.I. Vy'chislimoe i nevy'chislimoe. M.: Sov. radio. 1980.
  13. Kapicza S.P. Informaczionnoe razvitie obshhestva. Demograficheskaya revolyucziya i budushhee chelovechestva // Al'manax «Mozg i soznanie». M.: V mire nauki. 2007. S. 207-218.
  14. Kotov A.V., Alakoz G.M. Konflikt kak kriticheskaya faza funkczional'nogo razvitiya zhivy'x i slozhny'x kiberneticheskix sistem // Sistemny'j podxod v fiziologii. Pod red. K.V. Sudakova. M.: Trudy' nauchnogo soveta po e'ksper. i prikl. fiziologii. 2004. T. 12. S. 167-186.
  15. Shryodinger E'. Chto takoe zhizn'? Fizicheskij aspekt zhivoj kletki. Moskva-Izhevsk: Regulyarnaya i xaoticheskaya dinamika. 2002.
  16. Klimantovich Ju.L. Vvedenie v fiziku otkry'ty'x sistem. M.: Janus-K. 2002.
  17. Kotov A.V. Psixofiziologicheskij bazis stanovleniya addiktivny'x form povedeniya // Nejrokomp'yutery': razrabotka i primenenie. 2012. № 1. S. 9-22.
  18. Kolmogorov A.N. Tri podxoda k opredeleniyu ponyatiya «informacziya» //Problemy' peredachi informaczii. 1965. T. 1. Vy'p. 1. S. 3-11.
  19. Korogodin V.I., Korogodina V.L. Informacziya kak osnova zhizni. Dubna: Feniks. 2000.
  20. Deloachi Dzh. V mire simvolov //Al'manax «Mozg i soznanie». M.: V mire nauki. 2007. S.173-178.
  21. Alakoz G.M. Funkczional'naya sistema, motivacziya i kiberneticheskie sistemy' // Sistemny'e mexanizmy' motivaczii. Materialy' YI Seminara «Razvitie obshhej teorii funkczional'ny'x sistem». Moskva-Suzdal': 1982. S. 37-39.
  22. Ichas M. Biologicheskij kod / Per. s angl. M.: Mir. 1971.
  23. Sachkov V.N. Vvedenie v kombinatorny'e metody' diskretnoj matematiki. M.: Nauka. 1982.
  24. Alakoz G.M. Strukturno-parametricheskij metod xraneniya i preobrazovaniya informaczii v molekulyarnoj biologii i supramolekulyarnoj vy'chislitel'noj texnike // Nejrokomp'yutery': razrabotka, primenenie. 2007. № 5. S. 54-61. № 7. S. 51-65.
  25. Kendr'yu Dzh. Nit' zhizni / Per. s angl. M.: Mir. 1968.
  26. Inge-Vechtomov S.G. Citogeny' i priony': czitoplazmaticheskaya nasledstvennost' bez DNK - // Sorosovskij Obrazovatel'ny'j Zhurnal. 1996. № 5. S. 11-18.
  27. Alakoz G.M., Kotov A.V. Fiziko-ximicheskaya, molekulyarno-biologicheskaya i (nejro)fiziologicheskaya baza «nechislennoj» nejrokibernetiki // Nejrokomp'yutery': razrabotka, primenenie. 2008. № 1-2. S. 76-88. № 3-4. S. 69-83.
  28. Duxanov A.V. Podxod k by'stromu vnedreniyu programmnogo obespecheniya, poluchennogo v ramkax NIOKR, v uchebny'j proczess s primeneniem platformy' CLAVIRE // Dinamika slozhny'j sistem. 2013. № 3.