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References

Оглавление

1. McCulloch, W. and Pitts, W., A Logical Calculus of Ideas Immanent in Nervous Activity. Bull. Math. Biophys., 5, 4, 115–133, 1943.

2. Rosenblatt, F., The Perceptron - a perceiving and recognizing automaton, Report 85-460-1, Cornell Aeronautical Laboratory, Buffalo, New York, USA, 1957.

3. Hebb, D.O., The organization of behavior; a neuropsychological theory, Wiley, New York, USA, 1949.

4. Mills, P.A., Jr, Gene expression profiling diagnosis through DNA molecular computation. Trends Biotechnol., 20, 4, 137–140, 2002.

5. Liu, W., Sun, S., Guo, Y., A DNA Computing Model of Perceptron. Pacific-Asia Conference on Circuits, Communications and Systems, pp. 726–729, 2009.

6. Macdonald, J. and Stefanovic, D., Deoxyribozymes performing logic operations and simple computations. Scholarpedia J., 7, 6, 10021, 2012.

7. Ray, K.S. and Mondal, M., Reasoning with disposition using DNA tweezers. Int. J. Bio-inspired Comput., 4, 5, 302–318, 2012.

8. Seelig, G., Soloveichik, D., Zhang, D.Y., Winfree, E., Enzyme-Free Nucleic Acid Logic Circuits. Science, 314, 5805, 1585–1588, 2006.

9. Hirose, R., Kobayashi, S., Komiya, K., DNA Logic Circuits with a DNA Polymerase and a Nicking Enzyme, in: Proceedings of The 2011 International Conference on Parallel and Distributed Processing Techniques and Applications, pp. 713–719, Las Vegas, Nevada, USA, 2011.

10. Qian, L., Winfree, E., Bruck, J., Neural network computation with DNA strand displacement cascades. Nature, 475, 368–372, 2011.

11. Cherry, K.M. and Qian, L., Scaling up molecular pattern recognition with DNA-based winnertake-all neural networks. Nature, 559, 370–376, 2018.

12. Stojanovic, M.N. and Stefanovic, D., A Deoxyribozyme-Based Molecular Automaton. Nat. Biotechnol., 21, 1069–1074, 2003.

13. Macdonald, J., Li, Y., Sutovic, M., Lederman, H., Pendri, K., Lu, W., Andrews, B.L., Stefanovic, D., Stojanovic, M.L., Medium Scale Integration of Molecular Logic Gates in an Automaton. Nano Lett., 6, 2598–603, 2006.

14. Pei, R., Taylor, S.K., Stefanovic, D., Rudchenko, S., Mitchell, T.E., Stojanovic, M.N., Behavior of polycatalytic assemblies in a substrate-displaying matrix. J. Am. Chem. Soc, 128, 39, 12693– 12699, 2006.

15. Adleman, L., Molecular computation of solutions to combinatorial problems. Science, 266, 1021–1024, 1994.

16. Winfree, E., Liu, F., Wenzler, L.A., Seeman, N.C., Design and self-assembly of two-dimensional DNA crystals. Nature, 394, 539–544, 1998.

17. Benenson, Y., Paz-Elizur, T., Adar, R., Keinan, E., Livneh, Z., Shapiro, E., Programmable and autonomous computing machine made of biomolecules. Nature, 414, 430–434, 2001.

18. Ray, K.S. and Mondal, M., Classification of SODAR data by DNA computing. New Math. Nat. Comput., 7, 3, 413–432, 2011.

19. Ray, K.S. and Mondal, M., Logical inference by DNA strand algebra. New Math. Nat. Comput., 12, 1, 29–44, 2016.

1 *Corresponding author: mandritamondal@gmail.com

Handbook of Intelligent Computing and Optimization for Sustainable Development

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