Abstract
Artificial neural network is a very important part in the new industry of artificial intelligence. In China, there are many researches on artificial neural network and artificial intelligence are developing rapidly. Therefore, this paper reviews and summarizes artificial neural network, and hopes that readers can get a deeper understanding of artificial neural network. This paper first reviews the development history of artificial neural network and its related theory, and introduces four major characteristics of artificial neural network, such as the non-linear, non-limitative, non-qualitative and non-convex. Then it emphatically analyzes its application in information, medicine, economy, control, transportation and psychology. Finally, the future development trend of artificial neural network is prospected and summarized.
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References
Dong, J., & Hu, S. (1997). The progress and prospects of neural network research. Information and Control, 26(5), 360–368.
Jenkins, B. K., & Tanguay, A. R. (1995). Handbook of neural computing and neural networks. Boston: MIT Press.
Bnlsabi, A. (1993). Some analytical solutions to the general approximation problem for feed forward neural networks. Neural Networks, 6, 991–996.
Luo, Z. H., Xie, Y., & Zhu, C. (1997). The study of convergence of CMAC learning process. Acta Automatic Sinica, 23(4), 455–461.
Balcazar, J. (1997). Computational power of neural networks: A characterization in terms of Kolmogorov complexity. IEEE Transactions on Information Theory, 43(4), 1175–1183.
Setiono, R., & Leow, W. K. (2000). FERNN: An algorithm for fast extraction of rules from neural networks. Applied Intelligence, 12(1–2), 15–25.
He, G., Zhu, P., Cao, Z., et al. (2004). Lyapunov exponents and chaotic regions of chaotic neural networks. Journal of Zhejiang University, 31(7), 387–390.
Kasabov, N., Scott, N. M., Tu, E., et al. (2016). Evolving spatio-temporal data machines based on the NeuCube neuromorphic framework; Design methodology and selected applications. Neural Networks, 78, 1–14.
Wu, Y., & Wang, S. (2004). A new algorithm of improving the learning performance of neural network by feedback. Journal of Computer Research and Development, 41(9), 1488–1492.
Xia, M., Fang, J., Tang, Y., et al. (2010). Dynamic depression control of chaotic neural networks for associative memory. Neurocomputing, 73, 776–783.
Ghani, A., See, C. H., & Alis, M. (2014). Step forward to map fully parallel energy efficient cortical columns on field programmable gate arrays. IET Science, Measurement & Technology, 8(6), 432–440.
Oz, C., & Leu, M. C. (2011). American sign language word recognition with a sensory glove using artificial neural networks. Engineering Applications of Artificial Intelligence, 4, 1204–1213.
Tan, Z. H., Yang, R., Terabe, K., et al. (2016). Synaptic metaplasticity realized in oxide memristive devices. Advanced Materials, 28(2), 377–384.
Singhal, D., & Swarup, K. S. (2011). Electricity price forecasting using artificial neural networks. Electrical Power and Energy Systems, 3, 550–555.
Wu, W., Wang, J., Cheng, M., et al. (2011). Convergence analysis of online gradient method for BP neural networks. Neural Networks, 24, 91–98.
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Wu, Yc., Feng, Jw. Development and Application of Artificial Neural Network. Wireless Pers Commun 102, 1645–1656 (2018). https://doi.org/10.1007/s11277-017-5224-x
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DOI: https://doi.org/10.1007/s11277-017-5224-x