Hao Bai scite author profile

Considering the complexity of lane changing using automated vehicles and the frequency of turning lanes in city settings, this paper aims to generate an accelerated lane-changing trajectory using vehicle-to-vehicle collaboration (V2VC). Based on the characteristics of accelerated lane changing, we used a polynomial method and cooperative strategies for trajectory planning to establish a lanechanging model under different degrees of collaboration with the following vehicle in the target lane by considering vehicle kinematics and comfort requirements. Furthermore, considering the shortcomings of the traditional elliptical vehicle and round vehicle models, we established a rectangular vehicle model with collision boundary conditions by analysing the relationships between the possible collision points and the outline of the vehicle. Then, we established a simulation model for the accelerated lane-changing process in different environments under different degrees of collaboration. The results show that, by using V2VC, we can achieve safe accelerated lane-changing trajectories and simultaneously satisfy the requirements of vehicle kinematics and comfort control.

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A Comprehensive method to evaluate the viscous slickwater as fracturing fluids for hydraulic fracturing applications

Wang

Zhou

Bai

et al. 2020

Journal of Petroleum Science and Engineering

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Moiré pattern based universal rules governing interfacial superlubricity: A case of graphene

Bai

Bao

et al. 2022

Carbon

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Hao Bai

Effect of longitudinal slope of urban underpass tunnels on drivers’ heart rate and speed: A study based on a real vehicle experiment

Effect of fracture on production characteristics and oil distribution during CO2 huff-n-puff under tight and low-permeability conditions

Accelerated Lane-Changing Trajectory Planning of Automated Vehicles with Vehicle-to-Vehicle Collaboration

A Comprehensive method to evaluate the viscous slickwater as fracturing fluids for hydraulic fracturing applications

Moiré pattern based universal rules governing interfacial superlubricity: A case of graphene

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