Kunrui Cao scite author profile

Kunrui Cao

4Publications

70Citation Statements Received

63Citation Statements Given

How they've been cited

227

How they cite others

145

Affiliations

National University of Defense Technology, Air Force Engineering University, Xidian University

Publications

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Coordinated cyber‐physical attacks considering DoS attacks in power systems

Tian

Wang

et al. 2019

Intl J Robust & Nonlinear

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SummaryThe smart grid faces a variety of physical and cyber attacks. Coordinated cyber‐physical attacks can cause severer consequences than the single cyber or physical attacks, which can be divided into two categories according to whether the physical attack is stealthy or not. Coordinated cyber‐physical attacks considering DoS attacks are investigated due to the lower cost of DoS attacks. In each category of coordinated cyber‐physical attacks, the mathematical models are derived and suitable methods are adopted to solve the corresponding issue. The experimental simulation demonstrates the potentially damaging effects and threats of this newly proposed attack. It is also presented that this newly proposed attack can use lower attack resources to introduce more catastrophic effects on the power system.

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On the Ergodic Secrecy Capacity of Intelligent Reflecting Surface Aided Wireless Powered Communication Systems

Cao

Ding

et al. 2022

IEEE Wireless Commun. Lett.

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Enhancing Physical-Layer Security for IoT With Nonorthogonal Multiple Access Assisted Semi-Grant-Free Transmission

Cao

Ding

Wang

et al. 2022

IEEE Internet Things J.

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Nonorthogonal multiple access (NOMA) assisted semi-grant-free transmission admits grant-free users to access the channels otherwise solely occupied by grant-based users, and has been recently attracting considerable attention in terms of accommodating massive connectivity and reducing access delay in Internet of Things (IoT). In this work, we investigate the security of semi-grant-free NOMA transmission in the presence of passive and active eavesdropping attacks. In particular, for the scenario-I with strong grant-based user and weak grant-free users, the scenario-I-based maximal user scheduling (IbMUS) and scenario-I-based optimal user scheduling (IbOUS) schemes are proposed to combat the passive and active eavesdropping, respectively. For the scenario-II with weak grant-based user and strong grant-free users, two parallel schemes, namely, the scenario-II-based maximal user scheduling (IIbMUS) and scenario-II-based optimal user scheduling (IIbOUS) schemes, are proposed to combat the passive and active eavesdropping, respectively. These proposed schemes enhance the security by scheduling a grant-free user with maximal main channel capacity/maximal secrecy capacity to access the NOMA channel on the premise of ensuring the grant-based user's Quality of Service. Based on these proposed schemes, the exact secrecy outage probability (SOP) are analyzed to evaluate the system performance. The simulation results validates the theoretic analysis and the superiority of the proposed schemes. The IbOUS and IIbOUS schemes can achieve better performance than the IbMUS and IIbMUS schemes owing to the use of active eavesdropper's channel state information (CSI). The SOP achieved by theproposed Manuscript

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Joint Adversarial Example and False Data Injection Attacks for State Estimation in Power Systems

Tian

Wang

et al. 2022

IEEE Trans. Cybern.

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Kunrui Cao

Coordinated cyber‐physical attacks considering DoS attacks in power systems

On the Ergodic Secrecy Capacity of Intelligent Reflecting Surface Aided Wireless Powered Communication Systems

Enhancing Physical-Layer Security for IoT With Nonorthogonal Multiple Access Assisted Semi-Grant-Free Transmission

Joint Adversarial Example and False Data Injection Attacks for State Estimation in Power Systems

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