Lane Change Control Combined with Ramp Metering: A Strategy to Manage Delays at On-Ramp Merging Sections

Subraveti, Hari Hara Sharan Nagalur; Knoop, Victor L.; Arem, Bart van

doi:10.1155/2021/8638523

Cited by 3 publications

(3 citation statements)

References 47 publications

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“…Te cooperation of ramp metering and variable speed limits was proposed for expressways management strategies, which improved the speed of vehicles and reduced gas emissions [16]. Another cooperative method that considered ramp metering (ALI-NEA) and lane change strategies (i.e., encouraging vehicles at inner lanes to change their lanes earlier before entering the weaving area) was introduced, leading to a 4% reduction in the total travel time when compared with only using a separate method [17].…”

Section: Introductionmentioning

confidence: 99%

Automated Traffic State Optimization in the Weaving Area of Urban Expressways by a Reinforcement Learning-Based Cooperative Method of Channelization and Ramp Metering

Deng

Xu³

et al. 2023

Journal of Advanced Transportation

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The traffic congestion problem on urban expressways, especially in the weaving areas, has become severe. Some cooperative methods have been proven to be more effective than a separate approach in optimizing the traffic state in weaving areas on urban expressways. However, a cooperative method that combines channelization with ramp metering has not been presented and its effectiveness has not been examined yet. Thus, to fill this research gap, this study proposes a reinforcement learning-based cooperative method of channelization and ramp metering to achieve automated traffic state optimization in the weaving area. This study uses an unmanned aerial vehicle to collect the real traffic flow data, and four control strategies (i.e., two kinds of channelization methods, a ramp metering method, and a cooperative method of channelization and ramp metering) and a baseline (without controls) are designed in the simulation platform (Simulation of Urban Mobility). The speed distributions of different control strategies on each lane were obtained and analyzed in this study. The results show that the cooperative method of channelization and ramp metering is superior to other methods, with significantly higher increases in vehicle speeds. This cooperative method can increase the average vehicle speeds in lane-1, lane-2, and lane-3 by 14.51%, 14.81%, and 37.03%, respectively. Findings in this study can contribute to the improvement of traffic efficiency and safety in the weaving area of urban expressways.

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Section: Introductionmentioning

confidence: 99%

Automated Traffic State Optimization in the Weaving Area of Urban Expressways by a Reinforcement Learning-Based Cooperative Method of Channelization and Ramp Metering

Deng

Xu³

et al. 2023

Journal of Advanced Transportation

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show abstract

Section: Introductionmentioning

confidence: 99%

“…Even if the demand level of the mainline is low, if the merge flow is relatively high, congestion may occur in the outermost lane due to merging vehicles. Furthermore, the traffic flow in inner lanes can deteriorate due to lane-changing vehicles entering in advance of the merging section [13]. Kim et al [14] developed a new LCC strategy to determine the optimal number of lanechanging vehicles at a merge bottleneck and induced CVs to change lanes with consideration of the real-time on-ramp flow.…”

Section: Introductionmentioning

confidence: 99%

Lane‐changing control with balancing lane flow at freeway merge bottlenecks in a connected vehicle environment: Application of a PID controller

Kim

Lee

2023

IET Intelligent Trans Sys

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A merging section on a freeway is a typical bottleneck where congestion easily occurs due to interference caused by vehicles entering the mainline from the ramp. To achieve higher speeds and/or yield to merging vehicles, drivers on the mainline often change lanes while continuously examining the circumstances ahead that are within their sight. This individual lane‐changing behaviour is somewhat myopic and could cause an imbalance in lane use, resulting in earlier onset of congestion and a more severe capacity drop than with balanced lane use. This study proposes a feedback‐based lane‐changing control strategy that balances lane flow at merge bottlenecks to mitigate capacity drop under a connected vehicle environment. The proposed Proportional‐Integral‐Derivative feedback controller examines the traffic state of the inner lanes and systematically governs the number of lane‐changing vehicles to prevent possible excessive disturbance. The proposed strategy is evaluated using microscopic simulation. For the hypothetical network, the strategy reduces the imbalance in lane flows and improves discharge flow rate as well as travel time. For the real‐world network, the strategy can also effectively relieve congestion in a possible scenario of connected automated vehicle adoption. These results indicate that the proposed strategy can improve flow efficiency for high‐volume traffic.

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The solid line prohibiting lane changing to improve traffic efficiency in the on-ramp merging area

Guo

Jiang

Zhu

et al. 2023

Transportmetrica B: Transport Dynamics

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Lane Change Control Combined with Ramp Metering: A Strategy to Manage Delays at On-Ramp Merging Sections

Cited by 3 publications

References 47 publications

Automated Traffic State Optimization in the Weaving Area of Urban Expressways by a Reinforcement Learning-Based Cooperative Method of Channelization and Ramp Metering

Automated Traffic State Optimization in the Weaving Area of Urban Expressways by a Reinforcement Learning-Based Cooperative Method of Channelization and Ramp Metering

Lane‐changing control with balancing lane flow at freeway merge bottlenecks in a connected vehicle environment: Application of a PID controller

The solid line prohibiting lane changing to improve traffic efficiency in the on-ramp merging area

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