Longyu Zhou scite author profile

Longyu Zhou

4Publications

48Citation Statements Received

30Citation Statements Given

How they've been cited

174

How they cite others

117

Affiliations

Shenzhen Institutes of Advanced Technology, University of Electronic Science and Technology of China, Wuhan Ship Development & Design Institute

Publications

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Deep-Learning-Based Intelligent Intervehicle Distance Control for 6G-Enabled Cooperative Autonomous Driving

Chen

Leng

et al. 2021

IEEE Internet Things J.

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Research on the sixth-generation cellular networks (6G) is gaining huge momentum to achieve ubiquitous wireless connectivity. Connected autonomous vehicles (CAVs) is a critical vertical application for 6G, holding great potentials of improving road safety, road and energy efficiency. However, the stringent service requirements of CAV applications on reliability, latency, and high speed communications will present big challenges to 6G networks. New channel access algorithms and intelligent control schemes for connected vehicles are needed for 6G-supported CAV. In this article, we investigated 6G-supported cooperative driving, which is an advanced driving mode through information sharing and driving coordination. First, we quantify the delay upper bounds of 6G vehicle-to-vehicle (V2V) communications with hybrid communication and channel access technologies. A deep learning neural network is developed and trained for the fast computation of the delay bounds in real-time operations. Then, an intelligent strategy is designed to control the intervehicle distance for cooperative autonomous driving. Furthermore, we propose a Markov chain-based algorithm to predict the parameters of the system states, and also a safe distance mapping method to enable smooth vehicular speed changes. The proposed algorithms are implemented in the AirSim autonomous driving platform. Simulation results show that the proposed algorithms are effective and robust with safe and stable cooperative autonomous driving, which greatly improve the road safety, capacity, and efficiency.

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Intelligent UAV Swarm Cooperation for Multiple Targets Tracking

Zhou

Leng

Liu

et al. 2022

IEEE Internet Things J.

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Integrated Sensing and Communication in UAV Swarms for Cooperative Multiple Targets Tracking

Zhou

Leng

Wang

et al. 2022

IEEE Trans. on Mobile Comput.

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Various interconnected Internet of Things (IoT) devices have emerged, led by the intelligence of the IoT, to realize exceptional interaction with the physical world. In this context, UAV swarm-enabled Multiple Targets Tracking (UAV-MTT), which can sense and track mobile targets for many applications such as hit-and-run, is an appealing topic. Unfortunately, UAVs cannot implement real-time MTT based on the traditional centralized pattern due to the complicated road network environment. It is also challenging to realize low-overhead UAV swarm cooperation in a distributed architecture for the real-time MTT. To address the problem, we propose a cyber-twin-based distributed tracking algorithm to update and optimize a trained digital model for real-time MTT. We then design a distributed cooperative tracking framework to promote MTT performance. In the design, both short-distance and long-distance distributed tracking cooperation manners are first realized with low energy consumption in communication by integrating resources of sensing and communication. Resource integration promotes target sensing efficiency with a highly successful tracking ratio as well. Theoretical derivation proves our algorithmic convergence. Hardware-in-the-loop simulation results demonstrate that our proposed algorithm can remarkably save 65.7% energy consumption in communication compared to other benchmarks while efficiently promoting 20.0% sensing performance.

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Cooperative Sensing and Task Offloading for Autonomous Platoons

Du¹,

Leng²,

Zhang³

et al. 2020

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Longyu Zhou

Deep-Learning-Based Intelligent Intervehicle Distance Control for 6G-Enabled Cooperative Autonomous Driving

Intelligent UAV Swarm Cooperation for Multiple Targets Tracking

Integrated Sensing and Communication in UAV Swarms for Cooperative Multiple Targets Tracking

Cooperative Sensing and Task Offloading for Autonomous Platoons

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