Ðа пÑÐ°Ð²Ð°Ñ ÑÑкопиÑи
Ðа пÑÐ°Ð²Ð°Ñ ÑÑкопиÑи
Ðа пÑÐ°Ð²Ð°Ñ ÑÑкопиÑи
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
487. Elrod D.W.; Maggiora G.M.; Trenary R.G. Application of Neural Networks in<br />
Chemistry. 2. A General Connectivity Representation for the Prediction of Regiochemistry.<br />
// Tetrahedron Comput. Methodol. - 1990. - V. 3 - P. 163-174.<br />
488. West G. Empirical 31 P Spectrum Prediction by Neural Networks. // NATO-ASI<br />
Molecular Spectroscopy: Recent Experimental and Computational Advances, Ponta<br />
Delgada. - 1992.<br />
489. Kvasnička V. An Application of Neural Networks in Chemistry. Prediction of<br />
13 C NMR Chemical Shifts. // J. Math. Chem. - 1991. - V. 6. - P. 63-76.<br />
490. West G.M.J. Predicting Phosphorus NMR Shifts Using Neural Networks. // J.<br />
Chem. Inf. Comput. Sci. - 1993. - V. 33, № 4. - P. 577-589.<br />
491. Kireev D.B. ChemNet: A Novel Neural Network Based Method for<br />
Graph/Property Mapping. // J. Chem. Inf. Comput. Sci. - 1995. - V. 35, № 2. - P.<br />
175-180.<br />
492. Fukushima K. Neocognitron: A Self-Organizing Neural Network Model for a<br />
Mechanism of Pattern Recognition Unaffected by Shift in Position. // Biol. Cybernetics.<br />
- 1980. - V. 36 - P. 193-202.<br />
493. Fukushima K.; Miyake S. Neocognitron: A New Algorithm for Pattern Recognition<br />
Tolerant of Deformations and Shifts in Position. // Pattern Recognition. -<br />
1982. - V. 15. - P. 455-469.<br />
494. Fukushima K. A Hierarchical Neural Network Model for Associative Memory.<br />
// Biol. Cybernetics. - 1984. - V. 50. - P. 105-113.<br />
495. Fukushima K. A Neural Network Model for Selective Attention in Visual Pattern<br />
Recognition. // Biol. Cybernetics. - 1986. - V. 55. - P. 5-15.<br />
496. Hubel D.H.; Wiesel T.N. Receptive Fields, Binocular Interaction and Functional<br />
Architecture in the Cat’s Visual Cortex. // J. Physiol. - 1962. - V. 160. - P.<br />
106-154.<br />
497. Hubel D.H.; Wiesel T.N. Receptive Fields and Functional Architecture in Two<br />
Nonstriate Visual Areas (18 and 19) of the Cats. // J. Neurophysiol. - 1965. - V. 28. -<br />
P. 229-289.<br />
498. Hubel D.H.; Wiesel T.N. Functional Architecture of Macaque Monkey Visual<br />
Cortex. // Proc. Roy. Soc. London Ser. B. - 1977. - V. 98 - P. 1-59.<br />
360
Change language