20,956 research outputs found
Multicriteria cruise control design considering geographic and traffic conditions
The paper presents the design of cruise control systems considering road and traffic information during the design of speed trajectories. Several factors are considered such as road inclinations, traffic lights, preceding vehicles, speed limits, engine emissions and travel times. The purpose of speed design is to reduce longitudinal energy, fuel consumption and engine emissions without a significant increase in travel time. The signals obtained from the road and traffic are handled jointly with the dynamic equations of the vehicle and built into the control design of reference speed. A robust H∞ control is designed to achieve the speed of the cruise control, guaranteeing the robustness of the system against disturbances and uncertainties
Look Who's Talking Now: Implications of AV's Explanations on Driver's Trust, AV Preference, Anxiety and Mental Workload
Explanations given by automation are often used to promote automation
adoption. However, it remains unclear whether explanations promote acceptance
of automated vehicles (AVs). In this study, we conducted a within-subject
experiment in a driving simulator with 32 participants, using four different
conditions. The four conditions included: (1) no explanation, (2) explanation
given before or (3) after the AV acted and (4) the option for the driver to
approve or disapprove the AV's action after hearing the explanation. We
examined four AV outcomes: trust, preference for AV, anxiety and mental
workload. Results suggest that explanations provided before an AV acted were
associated with higher trust in and preference for the AV, but there was no
difference in anxiety and workload. These results have important implications
for the adoption of AVs.Comment: 42 pages, 5 figures, 3 Table
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A Survey on Cooperative Longitudinal Motion Control of Multiple Connected and Automated Vehicles
A Learning-based Stochastic MPC Design for Cooperative Adaptive Cruise Control to Handle Interfering Vehicles
Vehicle to Vehicle (V2V) communication has a great potential to improve
reaction accuracy of different driver assistance systems in critical driving
situations. Cooperative Adaptive Cruise Control (CACC), which is an automated
application, provides drivers with extra benefits such as traffic throughput
maximization and collision avoidance. CACC systems must be designed in a way
that are sufficiently robust against all special maneuvers such as cutting-into
the CACC platoons by interfering vehicles or hard braking by leading cars. To
address this problem, a Neural- Network (NN)-based cut-in detection and
trajectory prediction scheme is proposed in the first part of this paper. Next,
a probabilistic framework is developed in which the cut-in probability is
calculated based on the output of the mentioned cut-in prediction block.
Finally, a specific Stochastic Model Predictive Controller (SMPC) is designed
which incorporates this cut-in probability to enhance its reaction against the
detected dangerous cut-in maneuver. The overall system is implemented and its
performance is evaluated using realistic driving scenarios from Safety Pilot
Model Deployment (SPMD).Comment: 10 pages, Submitted as a journal paper at T-I
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