Multi-Task End-to-End Self-Driving Architecture for CAV Platoons

Huch, Sebastian; Ongel, Aybike; Betz, Johannes; Lienkamp, Markus

doi:10.3390/s21041039

Cited by 9 publications

(6 citation statements)

References 39 publications

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“…This Special Issue of Sensors aims at reporting on some of the recent research efforts on this increasingly important topic. The 12 accepted papers in this Issue cover vehicle position estimation [1], vehicle dynamic parameters estimation [2], cooperative collision warning systems [3], small object detection [4], impact identification of the driver's driving performance on executive control function [5], hybrid path planning for autonomous driving [6], trajectory tracking for autonomous driving [7], vehicle stability control [8], vehicle stability and ride comfort control [9], urban platooning protocol design for platoon [10], path planning algorithm for platooning [11], and self-driving architecture design for CAV platoon [12].…”

Section: About the Editorsmentioning

confidence: 99%

“…A self-driving architecture combining the sensing, planning, and control for CAV platoons in an end-to-end fashion is proposed in [12]. This multi-task model can switch between two tasks to drive either the leading or following vehicle in the platoon.…”

Section: About the Editorsmentioning

confidence: 99%

“…In summary, there is a huge potential for CAV in collision avoidance, safety improvement and driving stability improvement. The papers gathered in this Special Issue contributed by proposing solutions to the general problem of state and/or parameter estimation [1][2][3], obstacle detection [4], driver behavior estimation [5], and/or classical academic problems such as path planning [6], path tracking [7], and stability control for autonomous driving [8,9] and/or by suggesting applications of the combined use of sensors and advanced algorithms to platooning [10][11][12], thus showing the theoretical challenges and practical interest of this research topic. Finally, we wish to thank the authors, reviewers, and journal staff for their commitment and effort, which made it possible to complete this Special Issue on time.…”

Section: About the Editorsmentioning

confidence: 99%

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Advanced Sensing and Control for Connected and Automated Vehicles

Huang

Zhao

et al. 2022

Sensors

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Section: About the Editorsmentioning

confidence: 99%

Section: About the Editorsmentioning

confidence: 99%

Section: About the Editorsmentioning

confidence: 99%

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Advanced Sensing and Control for Connected and Automated Vehicles

Huang

Zhao

et al. 2022

Sensors

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“…Navarro et al proposed sensor fusion-based E2E self-driving using real-world acquired data [15], but they did not analyze how to work their algorithm in real-world situations such as an urban traffic signal. Huch et al suggested V2X-based E2E self-driving for platooning [16]. Prashanth et al proposed JacintoNet, which was implemented in Texas Instruments (TI) TDA2x System on Chip, for real-time working [17].…”

Section: End-to-end Self-drivingmentioning

confidence: 99%

A Convolutional Neural Network-Based End-to-End Self-Driving Using LiDAR and Camera Fusion: Analysis Perspectives in a Real-World Environment

2021

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In this paper, we develop end-to-end autonomous driving based on a 2D LiDAR sensor and camera sensor that predict the control value of the vehicle from the input data, instead of modeling rule-based autonomous driving. Different from many studies utilizing simulated data, we created an end-to-end autonomous driving algorithm with data obtained from real driving and analyzing the performance of our proposed algorithm. Based on the data obtained from an actual urban driving environment, end-to-end autonomous driving was possible in an informal environment such as a traffic signal by predicting the vehicle control value based on a convolution neural network. In addition, this paper solves the data imbalance problem by eliminating redundant data for each frame during stopping and driving in the driving environment so we can improve the performance of self-driving. Finally, we verified through the activation map how the network predicts the vertical and horizontal control values by recognizing the traffic facilities in the driving environment. Experiments and analysis will be shown to show the validity of the proposed algorithm.

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“…Actually, the mandatory safe distances for ordinary vehicles are generally no less than 50 m. For heavy-duty trucks, the requirement is usually longer than 100 m [ 13 ]. Promoted by the advanced 5G, V2X communication technologies [ 14 ], and autonomous driving technology [ 15 ], the following gap between vehicles can be shortened to less than 15 m [ 16 ]. Consequently, the transportation density will be significantly increased.…”

Section: Introductionmentioning

confidence: 99%

Load Effect of Automated Truck Platooning on Highway Bridges and Loading Strategy

Ling

Deng

et al. 2022

Sensors

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Automated truck platooning (ATP) has gained growing attention due to its advantage in reducing fuel consumption and carbon emissions. However, it poses serious challenges to highway bridges due to the load effect of multiple closely spaced heavy-duty trucks on the bridge. In China, ATP also has great application prospects in the massive and ever-increasing highway freight market. Therefore, the load effects of ATP on bridges need to be thoroughly investigated. In this study, typical Chinese highway bridges and trucks were adopted. ATP load models were designed according to the current Chinese road traffic regulations. The load effects of ATP on highway bridges were calculated using the influence line method and evaluated based on the Chinese bridge design specifications. Results show that the load effect of ATP on bridges increases with the increase in the gross vehicle mass and the truck platooning size but decreases with the increasing inter-truck spacing and the critical wheelbase. The Grade-I (best quality standard) highway bridges are generally capable of withstanding the ATP loads, while caution should be exercised for other bridges. Strategies for preventing serious adverse impacts of ATP load on highway bridges are proposed.

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Multi-Task End-to-End Self-Driving Architecture for CAV Platoons

Cited by 9 publications

References 39 publications

Advanced Sensing and Control for Connected and Automated Vehicles

Advanced Sensing and Control for Connected and Automated Vehicles

A Convolutional Neural Network-Based End-to-End Self-Driving Using LiDAR and Camera Fusion: Analysis Perspectives in a Real-World Environment

Load Effect of Automated Truck Platooning on Highway Bridges and Loading Strategy

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