Qingji Wen scite author profile

As a promising application for autonomous driving, vehicle platooning aims at increasing traffic throughput, improving road safety, and reducing air pollution and fuel consumption. However, frequent traffic perturbations will bring more fuel consumption because vehicles driving in a platoon require more control to ensure safe driving, especially in high-density scenes. In this paper, considering the traffic perturbations and high-density scenes, we integrate communication and control systems to reduce the fuel consumption of a platoon. By obtaining the velocities of multiple vehicles ahead through a long-term evolution-vehicle (LTE-V) network, we propose a modified distributed model predictive control (DMPC) method to smooth traffic perturbations and handle the constraints of vehicle state and control. In addition, considering a limited number of uplink channels that can be reused in the platoon and the uncertainty of wireless channels, a radio resource allocation optimization problem in the LTE-V network is modeled. This problem is solved in two steps including maximum vehicle-to-vehicle (V2V) broadcast distance and minimum weight matching. This resource allocation scheme increases the platoon-based V2V broadcast distance while ensuring the ergodic capacity requirement of the cellular user (CUE) uplink communication and the reliability of platoon-based V2V communication. Simulation results show that the proposed method improves fuel efficiency compared to the existing schemes.

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Joint Resource Allocation and Power Control for V2V Communication of High-density Vehicle Network

Yan

Wen

2021

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Joint Optimal Relay Selection and Power Control for Reliable Broadcast Communication in Platoon

Wen

2020

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Qingji Wen

Outage-Constrained Device-to-Device Links Reuse Maximization and Its Application in Platooning

Joint Resource Allocation and Power Control for Full-Duplex V2I Communication in High-Density Vehicular Network

Integrated Communication and Control Design for Fuel-Efficient Vehicle Platooning

Joint Resource Allocation and Power Control for V2V Communication of High-density Vehicle Network

Joint Optimal Relay Selection and Power Control for Reliable Broadcast Communication in Platoon

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