Advanced search
Publication Cover
International Journal of Systems Science Volume 48, 2017 - Issue 3
Submit an article Journal homepage
136
Views
2
CrossRef citations to date
0
Altmetric
Original Articles

On the theory of flexible neural networks – Part I: a survey paper

Yazdan Bavafa-ToosiNo. 2/71, Abuzar 11 St., Ahmadabad Avenue, Mashhad, IranCorrespondence[email protected]
View further author information
Pages 649-658 | Received 19 Aug 2015, Accepted 20 Jun 2016, Published online: 14 Jul 2016

References

  • Albertini, F., & Dai Pra, P. (1995). Forward accessibility for recurrent neural networks. IEEE Transactions on Automatic Control, 40(11), 1962–1968.
  • Albertini, F., & Sontag, E.D. (1993a). Uniqueness of weights for neural networks. In R.J. Mammone (Ed.), Artificial neural networks for speech and vision (pp. 113–125). London: Chapman and Hall .
  • Albertini, F., & Sontag, E.D. (1993b). Uniqueness of weights for recurrent nets. Mathematical theory of networks and systems (Vol. 2, pp. 599–602). Regensburg: Akad Verlag .
  • Albertini, F., & Sontag, E.D. (1994). State observability in recurrent neural networks. Systems & Control Letters, 22, 235–244.
  • Bavafa-Toosi, Y. (2000). On multivariable linear output feedback (MEng thesis). Department of Electrical Engineering, K.N. Toosi University of Technology, Tehran.
  • Bavafa-Toosi, Y. (2006). Decentralized adaptive control of large-scale systems (PhD dissertation). School of Integrated Design Engineering, Keio University, Yokohama.
  • Bavafa-Toosi, Y., & Ohmori, H. (2005). Flexible neural networks: Some system-theoretic properties and a new class.In Proceedings of the Joint 44th IEEE Conference on Decision and Control & European Control Conference (pp. 2554–2561). Seville, Spain.
  • Bavafa-Toosi, Y., & Ohmori, H. (2006) Flexible neural network-based associative memories – part I: Behavior. In Proceedings of the 17th Symposium Mathematical Theory of Networks and Systems. Kyoto, Japan.
  • Bavafa-Toosi, Y. (2016a). On the theory of flexible neural networks – part II: Associative memories. Manuscript submitted for publication.
  • Bavafa-Toosi, Y. (2016b). A universal decentralized robust full-model-reference adaptive control with non-identical interconnections. Manuscript submitted for publication.
  • Bavafa-Toosi, Y., Ohmori, H., & Labibi, B. (2005). Failure-tolerant performance stabilization of the generic large-scale system by decentralized linear output feedback. ISA Transactions, 44(4), 501–513.
  • Bavafa-Toosi, Y., Ohmori, H., & Labibi, B. (2006). A generic approach to the design of decentralized linear output-feedback controllers. Systems & Control Letters, 55, 282–292.
  • Bevrani, H. (2002). A novel approach for power system load frequency controller design. Proceedings of the 2002 Asia/Pacific IEEE/PES Transmission and Distribution Conference and Exhibition, 1, 184–189.
  • Bouaziz, S., Dhahri, H., Alimi, A.M., & Abraham, A. (2013). A hybrid learning algorithm for evolving flexible beta basis function neural tree model. Neurocomputing, 117, 107–117.
  • Cybenko, G.V. (1989). Approximation by superpositions of a sigmoidal function. Mathematics of Control, Signals, and Systems, 2, 303–314.
  • Dhharani, S., Rakkiyappan, R., & Cao, J. (2015). ‘New delay dependent stability criteria for switched hopfield neural networks of neutral type with additive time-varying delay component, Neurocomputing, 151(2), 827–834.
  • Donnarumma, F., Prevete, R., & Trautteur, G. (2012). Programming in the brain: A neural network theoretical framework. Connection Science, 24(2–3), 71–90.
  • Gong, W., Liang, J., & Cao, J. (2015). Matrix measure method for global exponential stability of complex-valued recurrent neural networks with time-varying delays. Neural Networks, 70, 81–89.
  • Hagan, M.T., Demuth, H.B., Beale, M.H., & Jesus, O. De. (2014). Neural network design (2nd ed.). Oklahoma, OK: Martin Hagan.
  • Hornik, K., Stinchcombe, M., & White, H. (1989). Multilayer feedforward networks are universal approximators. Neural Networks, 2, 359–366.
  • Ismailov, V.E. (2015). Approximation by ridge functions and neural networks with a bounded number of neurons. Applicable Analysis: An International Journal, 94(11), 2245–2260.
  • Kerr, J.P., & Bartlett, E.B. (1993). High-speed reconstruction of SPECT images with a tailored piecewise neural network. In Proceedings of the 1993 IEEE Symposium. Nuclear Science and Conference on Medical Imaging (pp. 1317–1321). San Fransisco, CA.
  • Khaki-Sedigh, A., & Bavafa-Toosi, Y. (2001). Design of Static Linear Multivariable Output Feedback Controllers Using Random Optimization Techniques. Journal of Intelligent and Fuzzy Systems, 10(3–4), 185–195.
  • Kim, M., Matsunaga, N., & Kawaji, S. (2003). Estimation of cutting torque in drilling system based on flexible neural network. Proceedings of the 2003 International Joint Conference Neural Networks , 1, 642–647.
  • Koplon, R., & Sontag, E.D. (1997). Using Fourier-Neural recurrent networks to fit sequential input/output data. Neurocomputing, 15, 225–248.
  • Kumar, M., & Yadav, N. (2011). Multilayer perceptrons and radial basis function neural network methods for the solution of differential equation: A survey. Computer & Mathematics with Applications, 26(10), 3796–3811.
  • Leonard, J.A., Kramer, M.A., & Ungar, L.H. (1992). Using radial basis functions to approximate a function and its error bounds. IEEE Transactions Neural Networks, 3(4), 624–627.
  • Liu, D., Li, C., Li, H., Wang, D., & Ma, H. (2015). ‘Neural network-based decentralized control of continuous-time nonlinear interconnected systems with unknown dynamics. Neurocomputing, 165, 90–98.
  • Mulder, W.De, Bethard, S., & Moens, M.-F. (2015). A survey on the application of recurrent neural networks to statistical language modeling. Computer Speech and Language, 30(1), 61–98.
  • Nechyba, M.C., & Xu, Y. (1994). Neural network approach to control system identification with variable activation functions. Proceedings of the 1994 IEEE International Symposium Intelligent Control (pp. 358–363). Columbus, OH.
  • Pan, Y., Zhou, Q., Lu, Q., & Wu, C. (2015). New dissipativity condition of stochastic fuzzy neural networks with discrete and distributed time-varying delays. Neurocomputing, 162(25), 267–272.
  • Park, J., & Sandberg, I.W. (1991). Universal approximation using radial-basis-function networks. Neural Computation, 3, 246–257.
  • Sanguineti, M. (2008). Universal approximation by ridge computational models and neural networks: A survey. The Open Applied Mathematics Journal, 2, 31–58.
  • Sinha, S. (1999). Chaotic dynamics in iterated map neural networks with piecewise linear activation function. Fundamenta Informaticae, 37, 31–50.
  • Sollazi, M., & Uncini, A. (2004). Regularizing neural networks using flexible multivariate activation function. Neural Networks, 17(2), 247–260.
  • Sontag, E.D. (1990). Remarks on interpolation and recognition using neural nets. In R.P. Lippmann, J.E. Moody, & D.S. Touretzky (Eds.), Advances in neural information processing systems (vol. 3, pp. 939–945). San Fransisco, CA: Morgan Kaufmann.
  • Sontag, E.D. (1997). Recurrent neural networks: Some system-theoretic aspects. In M. Karny, K. Warwick, & V. Kurkova (Eds.), Dealing with complexity: A neural network approach (pp. 1–12). London: Springer-Verlag.
  • Sontag, E.D., & Sussmann, H.J. (1997). Complete controllability of continuous-time recurrent neural networks. Systems & Control Letters, 30, 177–183.
  • Sussmann, H.J. (1992). Uniquesness of weights for minimal feedforward nets with a given input-output map. Neural Networks, 5, 589–593.
  • Teshnehlab, M., & Watanabe, K. (1999). Intelligent control based on flexible neural networks. Dordrecht: Kluwer Academic Publishers.
  • Trentelman, H.L., Stoorvogel, A.A., & Hautus, M.L.J. (2001). Control theory for linear systems. New York, NY: Springer-Verlag.
  • Wang, L., Zhang, J., & Shao, H. (2015). Existence and global stability of a periodic solution for a cellular neural network. Communications in Nonlinear Science and Numerical Simulation, 19(9), 2983–2992.
  • Yang, X., Dai, H., & Sun, Y. (2003). SIMO Fourier neural networks research. Proceedings of the 2003 IEEE Conference on Intelligent Transportation Systems, 2, 1606–1609.
  • Yang, X., Dai, H., Shen, G., & Sun, Y. (2003). Variable structure and variable learning rate Fourier neural networks research. In Proceedings of the 2003 IEEE International Symposium Intelligent Control (pp. 947–952). Houston.
  • Yazdanpanah, M.J., Semsar, E., & Lucas, C. (2003). Minimization of actuator repositioning in delayed processes using flexible neural networks. Proceedings of the 2003 IEEE Conference on Control Applications, 1, 331–335.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.