A priority tree based coordination method for intelligent and connected vehicles at unsignalized intersections

Dongxin, Lv; Qiqige, Wuniri; Chu, Wenbo; Yu, Huilong; Du, Xiaoping

doi:10.1049/itr2.12082

Cited by 4 publications

(6 citation statements)

References 24 publications

(38 reference statements)

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“…With the continuous improvement of the coverage of intelligent transportation network and the efficiency of information acquisition, using the network of vehicles and infrastructure, vehicles and vehicles, vehicles and other objects (people, clouds, networks), we can obtain constantly changing navigation, high-precision maps and traffic environment information in real time, and comprehensively predict the impact of future traffic conditions on vehicle driving. The integration of modern communication and network technology can realize the exchange and sharing of intelligent information between vehicles, roads, people and clouds, and has the functions of complex environment perception, intelligent decision-making, collaborative control, etc., which can realize safe, efficient, comfortable and energy-saving driving, and finally realize a new generation of ICEV(Intelligent and Connected Electric Vehicles) operated instead of people [1].…”

Section: Introductionmentioning

confidence: 99%

Research progress and prospect of energy-saving optimal control for intelligent and connected electric vehicles

2023

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Modern communication and network technology are integrated to realize the exchange and sharing of intelligent information between vehicles, roads, people and clouds. It has the functions of complex environment perception, intelligent decision-making, collaborative control, etc., and can realize safe, efficient, comfortable and energy-saving driving, and finally realize a new generation of ICEV (Intelligent and Connected Electric Vehicles)operated instead of people. For ICEV, it is important to optimize the speed trajectory by using the information of the road ahead to realize the predictive energy-saving control, which will improve the economy of the vehicle. In order to fully understand the research progress of the optimal control of ICEV, the key issues of the optimal control of vehicle energy consumption and emissions based on the information of intelligent network are summarized. Finally, the future challenges in intelligent vehicle optimization are prospected, which provides a reference for further extensive research.

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Section: Introductionmentioning

confidence: 99%

Research progress and prospect of energy-saving optimal control for intelligent and connected electric vehicles

2023

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“…They are very complex and has several parameters that tries to replicate real world behavior that can be used to study urban mobility. These models can also be used as benchmark as demonstrated in the study by Dongxin et al (2021).…”

Section: Comparative Methodsmentioning

confidence: 99%

“…Finally, we use the metrics Average Travel Time, Average Speed, Average Waiting Time, Arrived Vehicles and Traffic Flow to evaluate our method and compare with SUMO and TLS methods. These metrics are widely used in several works in the literature (DONGXIN et al, 2021), (LEVIN; REY, 2017), (SCHEPPERLE; BöHM; FORSTER, 2007), (LISSAC; DJAHEL; HODGKISS, 2019) and (WANG; CAI; LU, 2020). As mentioned in the Section 1.1, our main goal is to enhance the flow of vehicles and reduce travel time.…”

Section: Comparative Methodsmentioning

confidence: 99%

“…The authors conclude that AIM* performs much better than AIM with FCFS policy. Dongxin et al (2021) proposed the coordination of passage at the non-signalized intersection using predefined trajectories coordinated through a priority tree based on a Dynamic Scheduling Algorithm and on an online formed priority tree. They also discretized the intersection center into sections used to calculate conflicts.…”

Section: Intersection Managementmentioning

confidence: 99%

“…For each strategy, the trajectory is calculated for a given time interval and sampling time, and the trajectories represent "pre-defined" routes as pointed out by Chen and Englund (2016). As proposed by Dongxin et al (2021) and Levin and Rey (2017), once a trajectory is chosen it is no longer changed and overtaking is not considered either. In this way, the positions are calculated in continuous space, discretized time and a decision making is not changed.…”

Section: Approach Definitionmentioning

confidence: 99%

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A Decentralized Approach for Connected and Autonomous Vehicles Traffic Negotiation and Conflict Resolution

Santos¹

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O crescimento populacional e a rápida expansão urbana no último século geraram uma aglomeração metropolitana que causou inúmeros impactos sociais e econômicos. A alta demanda por mobilidade resultou em um número crescente de veículos nas estradas, levando a tempos de viagem mais longos, o que tem causado congestionamentos, aumento dos índices de acidentes e aumento da poluição. Os Sistemas de Transporte Inteligente (ITS) têm o potencial de revolucionar o transporte e a mobilidade urbana ao reduzir acidentes de trânsito, mitigar congestionamentos e engarrafamentos.A comunicação entre veículos permite negociação e cooperação que podem ser usadas em vários contextos, como cruzamentos, junções de faixa e mudança de faixa. A resolução de conflitos entre veículos é uma tarefa desafiadora devido à maior densidade de veículos e espaço de manobra limitado, muitas vezes apenas mudanças de velocidade é permitido. Um número significativo de estudos focam em soluções centralizadas que possuem uma forte dependência da infraestrutura. Além disso, há poucas pesquisas sobre métodos de negociação descentralizada que levem em consideração sistemas multiobjetivos onde cada veículo tem sua própria função de custo privada e também existem poucos trabalhos focados em soluções generalizadas que abordam diferentes cenários dinâmicos com fluxo de tráfego usando a mesma abordagem.Esta tese propõe um método para resolução de conflitos entre veículos que possuem a capacidade de se comunicar de forma descentralizada e que pode ser utilizado em múltiplos cenários dinâmicos, tais como: cruzamentos, junções de faixa e mudanças de faixa. Também consideramos veículos com diferentes características, dimensões e funções de custo privadas. A abordagem proposta visa melhorar o fluxo de veículos e reduzir o tempo de viagem que pode ser traduzido na redução de emissão de poluentes.Para avaliar a proposta, utilizamos uma ferramenta de simulação para criar diversos cenários de teste e comparamos os resultados com métodos existentes utilizando métricas comumente utilizadas na literatura. Além disso, também foi necessário adaptar a ferramenta de simulação para incluir recursos como cálculo de trajetória, detecção de colisão e gerenciamento de veículos em relação ao processo de tomada de decisão.Em todos os cenários, melhorias significativas foram alcançadas em termos de fluxo de veículos, resultando em diminuição do tempo de viagem e aumento da velocidade média em relação aos benchmarks utilizados.

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Prioritization for time slot allocation and message transmission in TDMA MAC for VANETs

Johari

Krishna

2022

2022 IEEE 11th International Conference on Communication Systems and Network Technologies (CSNT)

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A priority tree based coordination method for intelligent and connected vehicles at unsignalized intersections

Cited by 4 publications

References 24 publications

Research progress and prospect of energy-saving optimal control for intelligent and connected electric vehicles

Research progress and prospect of energy-saving optimal control for intelligent and connected electric vehicles

A Decentralized Approach for Connected and Autonomous Vehicles Traffic Negotiation and Conflict Resolution

Prioritization for time slot allocation and message transmission in TDMA MAC for VANETs

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