Toll Plaza Lane Choice and Lane Configuration Strategy for Autonomous Vehicles in Mixed TrafficSource: Journal of Transportation Engineering, Part A: Systems:;2020:;Volume ( 146 ):;issue: 012DOI: 10.1061/JTEPBS.0000457Publisher: ASCE
Abstract: Toll plazas are one kind of highway node that pose a challenge to the flow of autonomous vehicles (AVs). Some toll roads have open road tolling (ORT), which makes it easier and more efficient for AVs, but most toll plazas do not have ORT. The authors developed a decision model to assist AVs in choosing the right lane that involves two main indicators, the rod speed (SRi) and the decision-making value (DSRi). The decision model was applied to a six-lane toll plaza with manual toll collection (MTC), electronic toll collection (ETC), and electronic toll collection for AVs toll types. The suitable lane configurations for the varying percentages of AVs in traffic were as follows: at 10% AV, the optimal lane configuration was 4 MTC and 2 ETC/AV (4M2EA), at 30% AV it was 3M3EA, at 40%–60% AV it was 3M2EA1A, and at 70% AV it was 2M2EA2A. Thus AVs should share toll lanes with ETC manned vehicles before the population of AVs reaches 30%; after that dedicated lanes may be introduced. It was also concluded that a 10% increase in AVs reduces delays by 9% if the populations of ETC and MTC vehicles are equal.
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| contributor author | Bin Yu | |
| contributor author | Denis Mwaba | |
| date accessioned | 2022-01-30T21:25:54Z | |
| date available | 2022-01-30T21:25:54Z | |
| date issued | 12/1/2020 12:00:00 AM | |
| identifier other | JTEPBS.0000457.pdf | |
| identifier uri | http://yetl.yabesh.ir/yetl1/handle/yetl/4268188 | |
| description abstract | Toll plazas are one kind of highway node that pose a challenge to the flow of autonomous vehicles (AVs). Some toll roads have open road tolling (ORT), which makes it easier and more efficient for AVs, but most toll plazas do not have ORT. The authors developed a decision model to assist AVs in choosing the right lane that involves two main indicators, the rod speed (SRi) and the decision-making value (DSRi). The decision model was applied to a six-lane toll plaza with manual toll collection (MTC), electronic toll collection (ETC), and electronic toll collection for AVs toll types. The suitable lane configurations for the varying percentages of AVs in traffic were as follows: at 10% AV, the optimal lane configuration was 4 MTC and 2 ETC/AV (4M2EA), at 30% AV it was 3M3EA, at 40%–60% AV it was 3M2EA1A, and at 70% AV it was 2M2EA2A. Thus AVs should share toll lanes with ETC manned vehicles before the population of AVs reaches 30%; after that dedicated lanes may be introduced. It was also concluded that a 10% increase in AVs reduces delays by 9% if the populations of ETC and MTC vehicles are equal. | |
| publisher | ASCE | |
| title | Toll Plaza Lane Choice and Lane Configuration Strategy for Autonomous Vehicles in Mixed Traffic | |
| type | Journal Paper | |
| journal volume | 146 | |
| journal issue | 12 | |
| journal title | Journal of Transportation Engineering, Part A: Systems | |
| identifier doi | 10.1061/JTEPBS.0000457 | |
| page | 11 | |
| tree | Journal of Transportation Engineering, Part A: Systems:;2020:;Volume ( 146 ):;issue: 012 | |
| contenttype | Fulltext |