2020
DOI: 10.1007/s00521-020-04728-7
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Global adaptive matrix-projective synchronization of delayed fractional-order competitive neural network with different time scales

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Cited by 23 publications
(9 citation statements)
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References 51 publications
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“…Concluding, the Caputo derivative is the most used fractional derivative for investigating the stability of the ANN involved with FC, followed by the Riemann-Liouville derivative. Nowadays, Caputo and Riemann- Adaptive control [188] ANN Synchronization [156] Chebyshev ANN Synchronization [161] Fuzzy ANN Synchronization [13,160] FANN Global projective synchronization [11,154] FANN Global synchronization [55,155] FANN Synchronization [189] Chaotic FANN Approximation and stability [82] Fuzzy cellular FANN Caputo derivative Global stability and synchronization [159] Memristive FANN Projective synchronization [190] Memristive FANN with leakage delay Synchronization [191] Radial basis function FANN Synchronization [158] Delayed FANN Mixed projective synchronization [192] Delayed BAM FANN Stability and synchronization [157] Delayed fuzzy FANN Projective synchronization [109] Delayed complex-valued FANN Quasi-projective and complete synchronization [193] Delayed competitive FANN Projective Synchronization Adaptive sliding mode control [194] Hopfield FANN Caputo derivative Stability [195] Delayed fuzzy FANN Projective synchronization [52] Deep convolutional ANN Robotic manipulators [196] Deep recurrent ANN Synchronization [165] Radial basis function ANN Stability [197] Radial basis function ANN HIV infection model [198,199] Recurrent ANN Approximation [198] Recurrent ANN Stability Sliding Mode Control [58] FANN Caputo derivative Synchronization [200] Chaotic FANN Syncrhonization [201] Memristive MAM FANN Fixed-time synchronization [15] Nonidentical FANN Projective synchronization [166] Delayed Hopfield FAN...…”
Section: Ann Involved With Fc To Reach Stabilitymentioning
confidence: 99%
“…Concluding, the Caputo derivative is the most used fractional derivative for investigating the stability of the ANN involved with FC, followed by the Riemann-Liouville derivative. Nowadays, Caputo and Riemann- Adaptive control [188] ANN Synchronization [156] Chebyshev ANN Synchronization [161] Fuzzy ANN Synchronization [13,160] FANN Global projective synchronization [11,154] FANN Global synchronization [55,155] FANN Synchronization [189] Chaotic FANN Approximation and stability [82] Fuzzy cellular FANN Caputo derivative Global stability and synchronization [159] Memristive FANN Projective synchronization [190] Memristive FANN with leakage delay Synchronization [191] Radial basis function FANN Synchronization [158] Delayed FANN Mixed projective synchronization [192] Delayed BAM FANN Stability and synchronization [157] Delayed fuzzy FANN Projective synchronization [109] Delayed complex-valued FANN Quasi-projective and complete synchronization [193] Delayed competitive FANN Projective Synchronization Adaptive sliding mode control [194] Hopfield FANN Caputo derivative Stability [195] Delayed fuzzy FANN Projective synchronization [52] Deep convolutional ANN Robotic manipulators [196] Deep recurrent ANN Synchronization [165] Radial basis function ANN Stability [197] Radial basis function ANN HIV infection model [198,199] Recurrent ANN Approximation [198] Recurrent ANN Stability Sliding Mode Control [58] FANN Caputo derivative Synchronization [200] Chaotic FANN Syncrhonization [201] Memristive MAM FANN Fixed-time synchronization [15] Nonidentical FANN Projective synchronization [166] Delayed Hopfield FAN...…”
Section: Ann Involved With Fc To Reach Stabilitymentioning
confidence: 99%
“…First, we extend the traditional projective scaling factor to a time-dependent function matrix and define a generalized synchronization mode, i.e., TFMPS. This synchronization mode can degenerate into matrix projective synchronization (PS) [41], modified PS [38], and anti-synchronization under specific restrictive requirements. The adjustability of fractional orders and the time-varying unpredictability of elements in function matrices can improve the safety of secret communication, providing better application prospects for communication encryption systems.…”
Section: Introductionmentioning
confidence: 99%
“…Thus STM means rapid neural activity, while LTM represents the unsupervised slow activity of synaptic modifications induced by inputs. For the past few years, many researchers have investigated the problems of synchronization and stability of CNNs, as well as other dynamical behaviors, please see papers [14][15][16][17][18][19][20] for more information.…”
Section: Introductionmentioning
confidence: 99%
“…[25][26][27][28] Notably, nonlocal CNNs with time lags have played extremely critical roles in science and engineering, which offer the efficient approaches to characterize memory with different scales. 18,19 For instance, by employing the adaptive control method, He et al 18 discussed projection synchronization of nonlocal CNNs with time lags depicted by r c D a 0 P i (t) = Àc i P i (t) +…”
Section: Introductionmentioning
confidence: 99%