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Your search keyword '"MEZAIR, TINHINANE"' showing total 5 results
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5 results on '"MEZAIR, TINHINANE"'

1. A rigorous multi-population multi-lane hybrid traffic model and its mean-field limit for dissipation of waves via autonomous vehicles

Author

Kardous, Nicolas, Hayat, Amaury, McQuade, Sean T., Gong, Xiaoqian, Truong, Sydney, Mezair, Tinhinane, Arnold, Paige, Delorenzo, Ryan, Bayen, Alexandre, and Piccoli, Benedetto

Subjects
Electrical Engineering and Systems Science - Systems and Control, Mathematics - Optimization and Control, 90B20, 93C15
Abstract

In this paper, a multi-lane multi-population microscopic model, which presents stop and go waves, is proposed to simulate traffic on a ring-road. Vehicles are divided between human-driven and autonomous vehicles (AV). Control strategies are designed with the ultimate goal of using a small number of AVs (less than 5\% penetration rate) to represent Lagrangian control actuators that can smooth the multilane traffic flow and dissipate the stop-and-go waves. This in turn may reduce fuel consumption and emissions. The lane-changing mechanism is based on three components that we treat as parameters in the model: safety, incentive and cool-down time. The choice of these parameters in the lane-change mechanism is critical to modeling traffic accurately, because different parameter values can lead to drastically different traffic behaviors. In particular, the number of lane-changes and the speed variance are highly affected by the choice of parameters. Despite this modeling issue, when using sufficiently simple and robust controllers for AVs, the stabilization of uniform flow steady-state is effective for any realistic value of the parameters, and ultimately bypasses the observed modeling issue. Our approach is based on accurate and rigorous mathematical models, which allows a limit procedure that is termed, in gas dynamic terminology, mean-field. In simple words, from increasing the human-driven population to infinity, a system of coupled ordinary and partial differential equations are obtained. Moreover, control problems also pass to the limit, allowing the design to be tackled at different scales., Comment: 24p. 6 figures

Published
2022
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4. Towards an Advanced Deep Learning for the Internet of Behaviors: Application to Connected Vehicles.

Author

MEZAIR, TINHINANE, DJENOURI, YOUCEF, BELHADI, ASMA, SRIVASTAVA, GAUTAM, and LIN, JERRY CHUN-WEI

Subjects
DEEP learning, ARTIFICIAL intelligence, INTERNET, INTERNET of things, BIG data, VEHICLES
Abstract

In recent years, intensive research has been conducted to enable people to live more comfortably. Developments in the Internet of Things (IoT), big data, and artificial intelligence have taken this type of research to a new level and led to the emergence of the Internet of Behaviors (IoB), which analyzes behavioral patterns. However, current IoB technologies are not capable of handling heterogeneous data. While it is quite common to have different formats of sensor data for the same behavioral observation, the use of these different data formats can significantly help to obtain a more accurate classification of the observation. Another limitation is that existing IoB deep learning models rely on inefficient hyperparameter tuning strategies. In this paper, we present an Advanced Deep Learning framework for IoB (ADLIoB) applied to connected vehicles. Several deep learning architectures are employed in this framework: CNN, Graph CNN (GCNN), and LSTM are used to train sensor data of different formats. In addition, a branch-and-bound technique is used to intelligently select hyperparameters. To validate ADLIoB, experiments were conducted on four databases for connected vehicles. The results clearly show that ADLIoB is superior to the baseline solutions in terms of both accuracy and runtime. [ABSTRACT FROM AUTHOR]

Published
2023
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