Multi-Scale Model-Based Hierarchical Control of Freeway Traffic via Platoons of Connected and Automated Vehicles

Ferrara, Antonella; Incremona, Gian Paolo; Birliba, Eugeniu; Goatin, Paola

doi:10.1109/ojits.2022.3217001

Cited by 13 publications

(2 citation statements)

References 59 publications

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“…Higher rates of AVs in the future and their ability to communicate with both each other and the environment will influence the distancing behavior between vehicles as well. With the goal of traffic flow optimization for increasing fuel efficiency, platooning will enable vehicles to also maintain closer distances between each other while still ensuring safety [50]- [52].…”

Section: Distancing Behavior In Steady-state Car-followingmentioning

confidence: 99%

Comfort and Safety in Conditional Automated Driving in Dependence on Personal Driving Behavior

Vasile,

Dinkha,

Seitz

et al. 2023

IEEE Open J. Intell. Transp. Syst.

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When changing from active driving to conditional automated driving (CAD), the question arises whether users still prefer their own driving behavior while being a passenger. The aim of this paper is to analyze driving behavior preferences in CAD based on the perception of comfort and safety, taking the personal driving behavior into account. Furthermore, it is investigated if users are able to manually demonstrate their desired driving behavior for CAD. Data on the personal, desired and experienced automated driving behavior of 42 participants from a real-world study was used to investigate both research questions for car-following (CF) and decelerating to a lead vehicle (DL) situations. In a first step, the personal and desired driving behavior is compared with the automated driving behavior based on selected parameters. Subsequently, the relationship between behavior differences and the assessed situation comfort and safety is analyzed. The results show a dependency between differences of personal and automated driving behavior and subjective ratings for comfort and safety. Furthermore, results suggest that participants prefer a driving behavior similar to or more defensive than their own for CAD. Our findings also show that participants were able to demonstrate their desired comfort driving behavior in CF and DL situations.

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Section: Distancing Behavior In Steady-state Car-followingmentioning

confidence: 99%

Comfort and Safety in Conditional Automated Driving in Dependence on Personal Driving Behavior

Vasile,

Dinkha,

Seitz

et al. 2023

IEEE Open J. Intell. Transp. Syst.

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“…V ARIABLE Speed Limit (VSL) is among the most exploited Intelligent Transportation Systems (ITSs) solutions to deal with the problem of traffic congestion on freeways [1], [2]. By computing an appropriate speed limit of the mainline based on prevailing road and traffic conditions, such systems aim to mitigate traffic congestion near bottleneck areas; as a consequence, it is possible to improve both the effectiveness and safety of roads compared to adhering solely to the legal speed limit [3], [4].…”

Section: Introductionmentioning

confidence: 99%

Fuzzy-Based Variable Speed Limits System Under Connected Vehicle Environment: A Simulation-Based Case Study in the City of Naples

Coppola

Costanzo

Pariota

et al. 2023

IEEE Open J. Intell. Transp. Syst.

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This paper handles the problem of controlling speed limits on freeways in a connected traffic environment to reduce traffic congestion and improve both the operational and environmental performance of the road network. In order to achieve this objective, we present a Variable Speed Limit (VSL) system that utilizes fuzzy logic, which adjusts the speed limits that connected vehicles must comply with by leveraging traffic data such as vehicle flow, occupancy, and speed obtained from loop detectors installed along the road. To evaluate the effectiveness of the proposed Fuzzy-based VSL system and its potential benefits compared to the conventional rule-based VSL system in terms of traffic congestion and environmental impact, we conducted a simulation analysis using the microscopic traffic simulator, VISSIM. Specifically, three simulation scenarios are taken into account: i) no VSL, where the VSL system is not enabled; ii) Rule-based VSL system, where a typical a decision tree-based system is considered; iii) Fuzzy-based VSL system, where the herein proposed approach is appraised. The results demonstrate that the proposed approach enhances road efficiency by decreasing speed variation, increasing average speed and vehicle volume, and reducing fuel consumption.

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Traffic Management of Freeway Networks in the Era of Connected and Automated Vehicles

Siri,

Pasquale,

Sacone

et al. 2024

Reference Module in Materials Science and Materials Engineering

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Multi-Scale Model-Based Hierarchical Control of Freeway Traffic via Platoons of Connected and Automated Vehicles

Cited by 13 publications

References 59 publications

Comfort and Safety in Conditional Automated Driving in Dependence on Personal Driving Behavior

Comfort and Safety in Conditional Automated Driving in Dependence on Personal Driving Behavior

Fuzzy-Based Variable Speed Limits System Under Connected Vehicle Environment: A Simulation-Based Case Study in the City of Naples

Traffic Management of Freeway Networks in the Era of Connected and Automated Vehicles

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