Chua LO. Memristor-the missing circuit element. IEEE Trans Circuit Theory. 1971;18(5):507–19.
Article
Google Scholar
Strukov D, Snider G, Stewart D, Williams RS. The missing memristor found. Nature. 2008;453:80–3.
Article
Google Scholar
Miller K, Nalwa KS, Bergerud A, Neihart NM, Chaudhary S. Memristive behavior in thin anodic titania. IEEE Electron Device Lett. 2010;31(7):737–9.
Article
Google Scholar
Sun J, Shen Y, Yin Q, Xu C. Compound synchronization of four memristor chaotic oscillator systems and secure communication. Chaos. 2012;23(1):1–10.
MathSciNet
Article
Google Scholar
Corinto F, Ascoli A, Gilli M. Nonlinear dynamics of memristor oscillators. IEEE Trans Circuits Syst I Reg Papers. 2011;58(6):1323–36.
MathSciNet
Article
Google Scholar
Pershin YV, Di Ventra M. Experimental demonstration of associative memory with memristive neural networks. Neural Netw. 2010;23(7):881–6.
Article
Google Scholar
Cantley KD, Subramaniam A, Stiegler HJ, Chapman RA, Vogel EM. Hebbian learning in spiking neural networks with nanocrystalline silicon TFTs and memristive synapses. IEEE Trans Nanotechnol. 2011;10(5):1066–73.
Article
Google Scholar
Wang L, He H, Zeng Z. Global synchronization of fuzzy memristive neural networks with discrete and distributed delays. IEEE Trans Fuzz Syst. 2020;28(9):2022–34.
Article
Google Scholar
Chen J, Zeng Z, Jiang P. Global Mittag-Leffler stability and synchronization of memristor-based fractional-order neural networks. Neural Netw. 2014;51:1–8.
Article
Google Scholar
Bao H, Cao J. Projective synchronization of fractional order memristor-based neural networks. Neural Netw. 2014;63:1–9.
Article
Google Scholar
Wu A, Zeng Z. Lagrange stability of memristive neural networks with discrete and distributed delays. IEEE Trans Neural Netw Learn Syst. 2014;25(4):690–703.
Article
Google Scholar
Zhang G, Shen Y. Exponential synchronization of delayed memristor-based chaotic neural networks via periodically intermittent control. Neural Netw. 2014;55:1–10.
Article
Google Scholar
Li N, Cao J. Global dissipativity analysis of quaternion-valued memristor-based neural networks with proportional delay. Neurocomputing. 2018;321:103–13.
Article
Google Scholar
Simmons GF. Calculus gems: brief lives and memorable mathematics. New York, NY, USA: McGraw-Hill; 1992.
MATH
Google Scholar
Adler SL. Quaternionic quantum mechanics and quantum fields. New York, NY, USA: Oxford Univ. Press; 1995.
MATH
Google Scholar
Took CC, Mandic DP. The quaternion LMS algorithm for adaptive filtering of hypercomplex processes. IEEE Trans Signal Process. 2009;57(4):1316–27.
MathSciNet
Article
Google Scholar
Zou C, Kou K, Wang Y. Quaternion collaborative and sparse representation with application to color face recognition. IEEE Trans Image Process. 2016;25(7):3287–302.
MathSciNet
Article
Google Scholar
Xia Y, Jahanchahi C, Mandic DP. Quaternion-valued echo state networks. IEEE Trans Neural Netw Learn Syst. 2015;26(4):663–73.
MathSciNet
Article
Google Scholar
Isokawa T, Kusakabe T, Matsui N, Peper F. Quaternion neural network and its application. In Proc 7th Int Conf KES, Oxford, U.K. 2003;318-324.
Qin S, Feng J, Song J, Wen X, Xu C. A one-layer recurrent neural network for constrained complex-variable convex optimization. IEEE Trans Neural Netw Learn Syst. 2018;29(3):534–44.
MathSciNet
Article
Google Scholar
Tu Z, Cao J, Alsaedi A, Hayat T. Global dissipativity analysis for delayed quaternion-valued neural networks. Neural Netw. 2017;89:97–104.
Article
Google Scholar
Liu Y, Zhang D, Lu J. Global exponential stability for quaternion-valued recurrent neural networks with time-varying delays. Nonlin Dyn. 2017;87(1):553–65.
Article
Google Scholar
Song Q, Chen X. Multistability analysis of quaternion-valued neural networks with time delays. IEEE Trans Neural Netw Learn Syst. 2018;29(11).
Chen X, Li Z, Song Q, Hu J, Tan Y. Robust stability analysis of quaternion-valued neural networks with time delays and parameter uncertainties. Neural Netw. 2017;91:55–65.
Article
Google Scholar
Liu Y, Zhang D, Lu J, Cao J. Global \(\mu\)-stability criteria for quaternion-valued neural networks with unbounded time-varying delays. Inf Sci. 2016;360:273–88.
Article
Google Scholar
Chen X, Song Q. State estimation for quaternion-valued neural networks with multiple time delays. IEEE Trans Syst Man Cybern Syst. 2019;49(11):2278–87.
Article
Google Scholar
Liu Y, Zhang D, Lou J, Lu J, Cao J. Stability analysis of quaternion-valued neural networks: decomposition and direct approaches. IEEE Trans Neural Netw Learn Syst. 2018;29(9):4201–11.
Article
Google Scholar
Bhat S, Bernstein D. Finite-time stability of continuous autonomous systems. Siam J Control Optim. 2000;38:751–66.
MathSciNet
Article
Google Scholar
Yang X, Lu J. Finite-time synchronization of coupled networks with Markovian topology and impulsive effects. IEEE Trans Autom Control. 2016;61(8):2256–61.
MathSciNet
Article
Google Scholar
Polyakov A. Nonlinear feedback design for fixed-time stabilization of linear control systems. IEEE Trans Automat Control. 2012;57(8):2106–10.
MathSciNet
Article
Google Scholar
Wang L, Zeng Z, Ge M. A disturbance rejection framework for finite-time and fixed-time stabilization of delayed memristive neural networks. IEEE Trans Syst Man Cybern Syst. 2021;51:905–15.
Article
Google Scholar
Wei R, Cao J, Alsaedi A. Finite-time and fixed-time synchronization analysis of inertial memristive neural networks with time-varying delays. Cogn Neurodyn. 2018;12(1):121–34.
Article
Google Scholar
Hu C, He H, Jiang H. Fixed/preassigned-time synchronization of complex networks via improving fixed-time stability. IEEE Trans Cyber. 2021;51(6):2882–92.
Article
Google Scholar
Feng L, Yu J, Hu C, Yang C, Jiang H. Nonseparation method-based finite/fixed-time synchronization of fully complex-valued discontinuous neural networks. IEEE Trans Cybern. 2021;51(6):3212–23.
Article
Google Scholar
Ding X, Cao J, Alsaedi A, Hayat T. Robust fixed-time synchronization for uncertain complex-valued neural networks with discontinuous activation functions. Neural Netw. 2017;90:42–55.
Article
Google Scholar
留言 (0)