WEAK SOLUTIONS OF FRACTIONAL ORDER PETTIS INTEGRAL INCLUSIONS WITH MULTIPLE TIME DELAY IN BANACH SPACES

Abstract On a recent paper Benchohra and Mostefai [2] presented some existence results for an integral equation of fractional order with multiple time delay in Banach spaces. In contrast to the classical case, when assumptions are expressed in terms of the strong topology, they considered another case, namely with the weak topology. It has some consequences for the proof. We present here some comments and corrections.

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Fractional Order Pettis Integral Equations with Multiple Time Delay in Banach Spaces

Annals of the Alexandru Ioan Cuza University - Mathematics ◽

10.2478/aicu-2014-0047 ◽

2014 ◽

Vol 0 (0) ◽

Cited By ~ 1

Author(s):

Mouffak Benchohra ◽

Fatima-Zohra Mostefai

Keyword(s):

Banach Space ◽

Integral Equation ◽

Time Delay ◽

Banach Spaces ◽

Fractional Order ◽

Existence Of Solutions ◽

Multiple Time ◽

Pettis Integral ◽

Measure Of Weak Noncompactness ◽

Pettis Integrability

Abstract This paper is devoted to study the existence of solutions under the Pettis integrability assumption for an integral equation of fractional order with multiple time delay in Banach space by using the technique of measure of weak noncompactness. Mathematics Subject Classification 2010: 26A33, 34A08.

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Combination Synchronization of Three Different Fractional-Order Delayed Chaotic Systems

Complexity ◽

10.1155/2019/5184032 ◽

2019 ◽

Vol 2019 ◽

pp. 1-9 ◽

Cited By ~ 4

Author(s):

Bo Li ◽

Xiaobing Zhou ◽

Yun Wang

Keyword(s):

Time Delay ◽

Fractional Order ◽

Time Delays ◽

Chaotic Systems ◽

Multiple Time ◽

Engineering Systems ◽

Fractional Order Systems ◽

Combination Synchronization ◽

Multiple Time Delays ◽

Practical Engineering

Time delay is a frequently encountered phenomenon in some practical engineering systems and introducing time delay into a system can enrich its dynamic characteristics. There has been a plenty of interesting results on fractional-order chaotic systems or integer-order delayed chaotic systems, but the problem of synchronization of fractional-order chaotic systems with time delays is in the primary stage. Combination synchronization of three different fractional-order delayed chaotic systems is investigated in this paper. It is an extension of combination synchronization of delayed chaotic systems or combination synchronization of fractional-order chaotic systems. With the help of stability theory of linear fractional-order systems with multiple time delays, we design controllers to achieve combination synchronization of three different fractional-order delayed chaotic systems. In addition, numerical simulations have been performed to demonstrate and verify the theoretical analysis.

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Identifiability and predictability of integer- and fractional-order epidemiological models using physics-informed neural networks

10.1101/2021.04.05.21254919 ◽

2021 ◽

Author(s):

Ehsan Kharazmi ◽

Min Cai ◽

Xiaoning Zheng ◽

Guang Lin ◽

George Em Karniadakis

Keyword(s):

Neural Networks ◽

Time Delay ◽

Fractional Order ◽

Control Measures ◽

Time Dependent ◽

Multiple Time ◽

Epidemiological Models ◽

Integer Order ◽

Delay Models ◽

Fractional Differential

ABSTRACTWe analyze a plurality of epidemiological models through the lens of physics-informed neural networks (PINNs) that enable us to identify multiple time-dependent parameters and to discover new data-driven fractional differential operators. In particular, we consider several variations of the classical susceptible-infectious-removed (SIR) model by introducing more compartments and delay in the dynamics described by integer-order, fractional-order, and time-delay models. We report the results for the spread of COVID-19 in New York City, Rhode Island and Michigan states, and Italy, by simultaneously inferring the unknown parameters and the unobserved dynamics. For integer-order and time-delay models, we fit the available data by identifying time-dependent parameters, which are represented by neural networks (NNs). In contrast, for fractional differential models, we fit the data by determining different time-dependent derivative orders for each compartment, which we represent by NNs. We investigate the identifiability of these unknown functions for different datasets, and quantify the uncertainty associated with NNs and with control measures in forecasting the pandemic.

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Model Approximation and Controller Synthesis for H∞ Robust Control of Multiple Time Delay Transfer Functions

International Review of Automatic Control (IREACO) ◽

10.15866/ireaco.v9i1.8331 ◽

2016 ◽

Vol 9 (1) ◽

pp. 1

Author(s):

Shyma Muhammed ◽

P. Venkata Mahesh ◽

Abraham T. Mathew ◽

T. K. Sunil Kumar

Keyword(s):

Time Delay ◽

Robust Control ◽

Transfer Functions ◽

Controller Synthesis ◽

Multiple Time ◽

Model Approximation

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Robust Predictive Control for a Class of Multiple Time Delay Uncertain Systems with Nonlinear Disturbance

ACTA AUTOMATICA SINICA ◽

10.3724/sp.j.1004.2013.00644 ◽

2014 ◽

Vol 39 (5) ◽

pp. 644-649 ◽

Cited By ~ 7

Author(s):

Cheng-Li SU ◽

Jia-Cheng ZHAO ◽

Ping LI

Keyword(s):

Time Delay ◽

Predictive Control ◽

Uncertain Systems ◽

Multiple Time ◽

Nonlinear Disturbance ◽

Robust Predictive Control

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Adaptive Predefined-Time Synchronization of Two Different Fractional-Order Chaotic Systems With Time-Delay

IEEE Access ◽

10.1109/access.2021.3059324 ◽

2021 ◽

Vol 9 ◽

pp. 31908-31920

Author(s):

Lixiong Lin ◽

Qing Wang ◽

Bingwei He ◽

Yanjie Chen ◽

Xiafu Peng ◽

...

Keyword(s):

Time Delay ◽

Fractional Order ◽

Chaotic Systems ◽

Time Synchronization

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Stability and Stabilization of the Fractional-order Power System with Time Delay

IEEE Transactions on Circuits & Systems II Express Briefs ◽

10.1109/tcsii.2021.3069323 ◽

2021 ◽

pp. 1-1

Author(s):

Zhongming Yu ◽

Yue Sun ◽

Xin Dai

Keyword(s):

Time Delay ◽

Power System ◽

Fractional Order ◽

Stability And Stabilization ◽

System With Time Delay

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Robust Stability Analysis of Interval Fractional-Order Plants with Interval Time delay and General Form of Fractional-Order Controllers

IEEE Control Systems Letters ◽

10.1109/lcsys.2021.3091525 ◽

2021 ◽

pp. 1-1

Author(s):

Majid Ghorbani ◽

Mahsan Tavakoli-Kakhki ◽

Aleksei Tepljakov ◽

Eduard Petlenkov ◽

Arash Farnam ◽

...

Keyword(s):

Stability Analysis ◽

Time Delay ◽

Fractional Order ◽

Robust Stability ◽

Interval Time ◽

Robust Stability Analysis

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Global stability analysis of fractional-order gene regulatory networks with time delay

International Journal of Biomathematics ◽

10.1142/s1793524519500670 ◽

2019 ◽

Vol 12 (06) ◽

pp. 1950067 ◽

Cited By ~ 3

Author(s):

Zhaohua Wu ◽

Zhiming Wang ◽

Tiejun Zhou

Keyword(s):

Time Delay ◽

Fractional Order ◽

Gene Regulatory Networks ◽

Existence And Uniqueness ◽

Regulatory Networks ◽

Lyapunov Method ◽

Regulation Mechanism ◽

Global Stability Analysis ◽

Gene Regulatory ◽

The Stability

Fractional-order gene regulatory networks with time delay (DFGRNs) have proven that they are more suitable to model gene regulation mechanism than integer-order. In this paper, a novel DFGRN is proposed. The existence and uniqueness of the equilibrium point for the DFGRN are proved under certain conditions. On this basis, the conditions on the global asymptotic stability are established by using the Lyapunov method and comparison theorem for the DFGRN, and the stability conditions are dependent on the fractional-order [Formula: see text]. Finally, numerical simulations show that the obtained results are reasonable.

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