In the context of developed by the authors of the memory model, the mechanism of information search in the library memory were studied. The authors proposed consistent variants of such mechanisms from the positions of biophysics, chemistry and mathematical logic. As in the previous articles, the role of the spectrum of the activity of hydrogen ions was highlighted. Events (facts) are placed in the library memory on the time axis - stratigraphy memory (according to V.V. Nabokov) and are subject to internal chronotype (according to A.A. Ukhtomsky). The authors touched a question upon vectorization time in biological systems in relation to the functioning of mechanisms of information search in the library memory. The authors note that the vectorization time in biosystems is the basis of the "speed" work of all mechanisms of memory. The mechanism of memory functions; for example, sleep, even deep - its essence is the work of the subconscious, i.e. the reference to the images and content of memory. Even taking into account the principle of anthropomorphism in the design of technical devices memory by individual, don’t associate characteristic for these devices "compression" of information from the brain work: here the information is not "shrinks" and recoded, contributing to lower power consumption of the process and reducing the overall entropy. The authors argue that the geometry of the drive with inherent spectra of the activity of hydrogen ions it is logically to consider the characteristics of similarity. This characteristic has fractal dimension that gives some level of comfort to compare patterns, which were discussed in this work. Identical and similar items patterns contribute equally to the formation of fractal dimension.
information search, library memory, stratigraphy of search, internal chronotype, the spectrum of activity of hydrogen ions, directory search.
1. Gerasimov I.G., Yashin A.A. Ionno-molekulyarnaya model´ pamyati. Vvedenie. Osnovnye opredeleniya. Vidy pamyati (kratkiy obzor). Vest-nik novykh meditsinskikh tekhnologiy. 2013. T. 20. № 4. C. 165-171.
2. Gerasimov I.G., Yashin A.A. Ionno-molekulyarnaya model´ pamyati. Material´nye nosi-teli dostavki i khraneniya informatsii. Vestnik novykh meditsinskikh tekhnologiy. 2013. T. 20- № 4. C. 171-176.
3. Gerasimov I.G., Yashin A.A. Ionno-molekulyarnaya model´ pamyati. Potentsial´nye is-tochniki, peredatchiki, detektory i nakopiteli informatsii. Vestnik novykh meditsinskikh tekhnologiy. Elektronnoe izdanie. 2014. № 1. URL: http://www.medtsu.tula.ru/VNMT/Bulletin/E2014-1/4701.pdf (data obrashcheniya 20.12.14).
4. Gerasimov I.G., Yashin A.A. Ionno-molekulyarnaya model´ pamyati. Sposoby kodirova-niya (formalizatsii) i perenosa informatsii. Vestnik novykh meditsinskikh tekhnologiy. 2014. T. 21. № 1. C. 100-104.
5. Gerasimov I.G., Yashin A.A. Ionno-molekulyarnaya model´ pamyati. Formirovanie in-formatsionnogo prostranstva pamyati posredstvom ionov vodoroda. Vestnik novykh meditsinskikh tekh-nologiy. Elektronnoe izdanie. 2014. № 1. URL: http://www.medtsu.tula.ru/VNMT/Bulletin/E2014-1/4752.pdf (data obrashcheniya 20.12.14).
6. Gerasimov I.G., Yashin A.A. Ionno-molekulyarnaya model´ pamyati. Struktura pamyati, ee propusknaya sposobnost´, kommutatory i dispetchery informatsii. Vestnik novykh meditsinskikh tekhnologiy. 2014. T. 21. № 3. S. 191-195.
7. Gerasimov I.G., Yashin A.A. Ionno-molekulyarnaya model´ pamyati. Strukturnye elemen-ty biblioteki pamyati i vzaimosvyaz´ mezhdu nimi. Vestnik novykh meditsinskikh tekhnologiy. 2014. T. 21. № 3. C. 195-198.
8. Batuev A.S. Fiziologiya vysshey nervnoy deya-tel´nosti i sensornykh sistem. SPb.: Piter, 2005. 317 s.
9. Feder E. Fraktaly. M.: Mir, 1991. 254 s.
10. Nabokov V.V. Ada, ili Erotiada: Semeynaya khronika. Kharkov: Folio, 2006. 601 s.
11. Barrouillet P., Bernardin S., Portrat S., Vergauwe E., Camos V. Time and cognitive load in working memory. J. Exp. Psychol. Learn. Mem. Cogn. 2007. V. 33. № 3. P. 570-585.
12. Gerasimov I.G. Vektorizatsiya vremeni v bio-logicheskikh sistemakh. Vestnik novykh meditsinskikh tekhnologiy. 2001. T. 8. № 2. S. 95-97.
13. Prigozhin I. Ot sushchestvuyushchego k vozni-kayushchemu. M.: Nauka, 1985. 326 s.
14. Shul´govskiy V.V. Osnovy neyrofiziolo-gii. M.: Aspekt Press, 2000. 277 s.
15. Kiroy V.N. Fiziologicheskie metody v psi-khologii. Rostov-na-Donu: OOO «TsVVR», 2003. 224 s.
16. Suvorov N.F., Tairov O.P. Psikhofiziologi-cheskie mekhanizmy izbiratel´nogo vnimaniya. L.: Nauka, 1985. 287 s.
17. Daniel´s F., Olberti R. Fizicheskaya khimiya. M.: Mir, 1978. 632 s.
