Add to ORKGIn this paper, we present a systematic approach for fuel-economy optimization of a connected automated truck that utilizes motion information from multiple vehicles ahead via vehicle-to-vehicle (V2V) communication. Position and velocity data collected from a chain of human-driven vehicles are utilized to design a connected cruise controller that smoothly responds to traffic perturbations while maximizing energy efficiency. The proposed design is evaluated using a high-fidelity truck model and the robustness of the design is validated on real traffic data sets. It is shown that optimally utilizing V2V connectivity leads to around 10% fuel economy improvements compared to the best nonconnected design
The use of connectivity and automation in mobility applications is rapidly increasing and being intr...
The heavy duty transportation sector is projected to grow in the coming decades. Increasing the fuel...
Connected and autonomous vehicle (CAV) technologies are likely to be gradually implemented over time...
This paper focuses on energy-efficient longitudinal controller design for a connected automated truc...
In this paper, we propose a framework for the longitudinal control of connected and automated vehicl...
In this paper, we present results regarding the experimental validation of connected automated vehic...
Fully automated vehicles could have a significant share of the road network traffic in the near futu...
Connectivity-enabled automation of distributed control systems allow for better anticipation of syst...
This article discusses the basic concept of connected and automated vehicles (CAV) technology. The c...
Fully automated vehicles are expected to have a significant share of the road network traffic in the...
This dissertation assesses eco-driving effectiveness in several key traffic scenarios that include p...
This study aims to leverage advances in connected automated vehicle (CAV) technology to design an ec...
Connected Autonomous Vehicles are equipped with the capabilities of autonomous navigation, Vehicle t...
The continuous increase in global CO2 emissions, together with more stringent vehicle emissions and ...
AbstractCONVENIENT is a project where prediction and integrated control are applied on several subsy...
The use of connectivity and automation in mobility applications is rapidly increasing and being intr...
The heavy duty transportation sector is projected to grow in the coming decades. Increasing the fuel...
Connected and autonomous vehicle (CAV) technologies are likely to be gradually implemented over time...
This paper focuses on energy-efficient longitudinal controller design for a connected automated truc...
In this paper, we propose a framework for the longitudinal control of connected and automated vehicl...
In this paper, we present results regarding the experimental validation of connected automated vehic...
Fully automated vehicles could have a significant share of the road network traffic in the near futu...
Connectivity-enabled automation of distributed control systems allow for better anticipation of syst...
This article discusses the basic concept of connected and automated vehicles (CAV) technology. The c...
Fully automated vehicles are expected to have a significant share of the road network traffic in the...
This dissertation assesses eco-driving effectiveness in several key traffic scenarios that include p...
This study aims to leverage advances in connected automated vehicle (CAV) technology to design an ec...
Connected Autonomous Vehicles are equipped with the capabilities of autonomous navigation, Vehicle t...
The continuous increase in global CO2 emissions, together with more stringent vehicle emissions and ...
AbstractCONVENIENT is a project where prediction and integrated control are applied on several subsy...
The use of connectivity and automation in mobility applications is rapidly increasing and being intr...
The heavy duty transportation sector is projected to grow in the coming decades. Increasing the fuel...
Connected and autonomous vehicle (CAV) technologies are likely to be gradually implemented over time...