Shixian Luo scite author profile

This paper presents a new impulsive synchronization criterion of two identical reaction-diffusion neural networks with discrete and unbounded distributed delays. The new criterion is established by applying an impulse-time-dependent Lyapunov functional combined with the use of a new type of integral inequality for treating the reaction-diffusion terms. The impulse-time-dependent feature of the proposed Lyapunov functional can capture more hybrid dynamical behaviors of the impulsive reaction-diffusion neural networks than the conventional impulse-time-independent Lyapunov functions/functionals, while the new integral inequality, which is derived from Wirtinger's inequality, overcomes the conservatism introduced by the integral inequality used in the previous results. Numerical examples demonstrate the effectiveness of the proposed method. Later, the developed impulsive synchronization method is applied to build a spatiotemporal chaotic cryptosystem that can transmit an encrypted image. The experimental results verify that the proposed image-encrypting cryptosystem has the advantages of large key space and high security against some traditional attacks.

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On Event-Triggered Control of Nonlinear Stochastic Systems

Luo

Deng

2020

IEEE Trans. Automat. Contr.

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Unified dwell time–based stability and stabilization criteria for switched linear stochastic systems and their application to intermittent control

Luo

Deng

Chen

2017

Intl J Robust & Nonlinear

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Summary This paper considers the stability and stabilization problems for the switched linear stochastic systems under dwell time constraints, where the considered systems can be composed of an arbitrary combination of stable and unstable subsystems. First, a time‐varying discretized Lyapunov function is constructed based on the projection of a linear Lagrange interpolant and a switching‐time‐dependent “weighted” function. The “weighted” function not only enforces the Lyapunov function to decrease at switching instants but also coordinates the dynamical behavior of the subsystems. As a result, some unified criteria for mean square stability and almost sure stability of the switched stochastic systems are established in terms of linear matrix inequalities. Based on the obtained stochastic stability criteria, 2 types of state feedback controllers for the systems are designed. Moreover, the novel results are applied to solve the intermittent control or the controller failure problems. Finally, conservatism analysis and numerical examples are provided to illustrate the effectiveness of the established theoretical results.

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Exponential synchronization of stochastic time-delayed memristor-based neural networks via distributed impulsive control

et al. 2018

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Understanding Chinese Video and Language via Contrastive Multimodal Pre-Training

Lei

Luo

Liu

et al. 2021

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Stabilization of hybrid stochastic systems in the presence of asynchronous switching and input delay

Luo

Deng

2019

Nonlinear Analysis: Hybrid Systems

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Understanding Chinese Video and Language via Contrastive Multimodal Pre-Training

Lei¹,

Luo²,

Liu³

et al. 2021

Preprint

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The pre-trained neural models have recently achieved impressive performances in understanding multimodal content. However, it is still very challenging to pre-train neural models for video and language understanding, especially for Chinese video-language data, due to the following reasons. Firstly, existing video-language pretraining algorithms mainly focus on the co-occurrence of words and video frames, but ignore other valuable semantic and structure information of video-language content, e.g., sequential order and spatiotemporal relationships. Secondly, there exist conflicts between video sentence alignment and other proxy tasks. Thirdly, there is a lack of large-scale and high-quality Chinese video-language datasets (e.g., including 10 million unique videos), which are the fundamental success conditions for pre-training techniques.In this work, we propose a novel video-language understanding framework named Victor, which stands for VIdeo-language understanding via Contrastive mulTimOdal pRe-training. Besides general proxy tasks such as masked language modeling, Victor constructs several novel proxy tasks under the contrastive learning paradigm, making the model be more robust and able to capture more complex multimodal semantic and structural relationships from different perspectives. Victor is trained on a large-scale Chinese video-language dataset, including over 10 million complete videos with corresponding high-quality textual descriptions. We apply the pre-trained Victor model to a series of downstream applications and demonstrate its superior performances, comparing against the state-of-the-art pre-training methods such as VideoBERT and UniVL. The codes and trained checkpoints will be publicly available to nourish further developments of the research community.

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Multistability in a class of stochastic delayed Hopfield neural networks

2015

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Shixian Luo

Impulsive Synchronization of Reaction–Diffusion Neural Networks With Mixed Delays and Its Application to Image Encryption

On Event-Triggered Control of Nonlinear Stochastic Systems

Unified dwell time–based stability and stabilization criteria for switched linear stochastic systems and their application to intermittent control

Exponential synchronization of stochastic time-delayed memristor-based neural networks via distributed impulsive control

Understanding Chinese Video and Language via Contrastive Multimodal Pre-Training

Stabilization of hybrid stochastic systems in the presence of asynchronous switching and input delay

Understanding Chinese Video and Language via Contrastive Multimodal Pre-Training

Multistability in a class of stochastic delayed Hopfield neural networks

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