32 research outputs found
Recommended from our members
Cooperative Eco-Driving at Signalized Intersections in a Partially Connected and Automated Vehicle Environment
Recommended from our members
A Survey on Cooperative Longitudinal Motion Control of Multiple Connected and Automated Vehicles
Quantifying the Impact of Cellular Vehicle-to-Everything (C-V2X) on Transportation System Efficiency, Energy and Environment
69A43551747123As communication technology develops at a rapid pace, connected vehicles (CVs) can potentially enhance vehicle safety while reducing energy consumption and emissions via data sharing. Many researchers have attempted to quantify the impacts of such CV applications and cellular vehicle-to-everything (C-V2X) communication. Highly efficient information interchange in a CV environment can provide timely data to enhance the transportation system\u2019s capacity, and it can support applications that improve vehicle safety and minimize negative impacts on the environment. This study summarizes existing literature on the safety, mobility, and environmental impacts of CV applications; gaps in current CV research; and recommended directions for future CV research. The study investigates a C-V2X eco-routing application that considers the performance of the C-V2X communication technology (mainly packet loss). The performance of the C-V2X communication is dependent on the vehicular traffic density, which is affected by traffic mobility patterns and vehicle routing strategies. As a case study of C-V2X applications, we developed an energy-efficient dynamic routing application using C-V2X Vehicle-to-Infrastructure (V2I) communication technology. Specifically, we developed a Connected Energy-Efficient Dynamic Routing (C-EEDR) application and used it in an integrated vehicular traffic and communication simulator (INTEGRATION). The results demonstrate that the C-EEDR application achieves fuel savings of up to 16.6% and 14.7% in the IDEAL and C-V2X communication cases, respectively, for a peak hour demand on the downtown Los Angeles network considering a 50% level of market penetration of connected vehicles
On Constant Distance Spacing Policies for Cooperative Adaptive Cruise Control
Cooperative Adaptive Cruise Control (CACC) systems are considered as key
potential enablers to improve driving safety and traffic efficiency. They allow
for automated vehicle following using wireless communication in addition to
onboard sensors. To achieve string stability in CACC platoons, constant time
headway (CTH) spacing policies have prevailed in research; namely, vehicle
interspacing grows with the speed. While constant distance headway (CDH)
spacing policies provide superior potential to increase traffic capacity than
CTH, a major drawback is a smaller safety margin at high velocities and string
stability cannot be achieved using a one-vehicle look-ahead communication. The
hypothesis of this work is to apply CDH only in few driving situations, when
traffic throughput is of highest importance and safety requirements can be met
due to comparably low velocities. As the most relevant situations where CDH
could be applied, we identify starting platoons at signalized intersections. In
this paper, we illustrate this idea. Specifically, we compare CTH with CDH
regarding its potential to increase the capacity of traffic lights. Starting
with the elementary situation of single traffic lights we expand our scope to
whole traffic networks including several thousand vehicles in simulation. Using
real world data to calibrate and validate vehicle dynamics simulation and
traffic simulation, the study discusses the most relevant working parameters of
CDH, CTH, and the traffic system in which both are applied.Comment: In preparation for submission to IEEE Transactions on Intelligent
Transportation System
Intersection control with connected and automated vehicles: a review
Purpose: This paper aims to review the studies on intersection control with connected and automated vehicles (CAVs). Design/methodology/approach: The most seminal and recent research in this area is reviewed. This study specifically focuses on two categories: CAV trajectory planning and joint intersection and CAV control. Findings: It is found that there is a lack of widely recognized benchmarks in this area, which hinders the validation and demonstration of new studies. Originality/value: In this review, the authors focus on the methodological approaches taken to empower intersection control with CAVs. The authors hope the present review could shed light on the state-of-the-art methods, research gaps and future research directions