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CRII: CPS: Human-Centric Connected and Automated Vehicles for Sustainable Mobility

$175,000FY2022CSENSF

Texas Tech University, Lubbock TX

Investigators

Abstract

This award is funded in whole or in part under the American Rescue Plan Act of 2021 (Public Law 117-2). This project will develop novel modeling, control, and optimization methods for connected and automated vehicles to operate in human-dominated traffic to improve the efficiency and sustainability of the urban transportation system while respecting individual drivers’ unique behaviors and social norms accordingly. The significance of the research is highlighted by the following two needs. First, the inefficiency of the urban transportation system has resulted in substantial fuel waste and emissions over the decades. Leveraging vehicles’ growing autonomy and connectivity, a significant boost of energy efficiency, emission performance, and traffic management can be achieved through dedicated control and optimization of vehicle maneuvers and routes. Second, human drivers will remain the majority of operators on the road in the foreseeable future. The resulting mixed traffic where connected and automated vehicles and human drivers share the road with frequent interactions requires detailed modeling of human drivers’ behaviors in a socially compatible context. The proposed research can generate socioeconomic incentives such as improving the efficiency of the urban transportation system and promoting technology acceptance for sustainable mobility, thereby alleviating the nation’s energetic and environmental concerns. The scientific outcome of the project will advance convergent research areas of control theory, optimization, human behavioral study, and machine learning. The project will involve an interdisciplinary team of students through hands-on research opportunities at Texas Tech University, which has been historically and actively engaged in serving the traditionally underrepresented student body in STEM, contributing towards equitable and inclusive educational and social outcomes. The project focuses on three objectives through a rigorous theoretical treatment and experimental campaign: (i) characterizing human driving behaviors in realistic and common traffic scenarios. (ii) quantifying the impacts of various driving behaviors, especially when interacting with connected and automated vehicles, on the efficiency and sustainability of urban transportation systems. (iii) designing a socially compliant control and optimization scheme of human-centric connected and automated vehicles for minimal energy consumption and emissions. A progressive development, validation, and testing plan will be implemented with a high-fidelity vehicle and traffic dynamics model, human subject tests in virtual driving simulation, and in-field motion planning on a fully equipped drive-by-wire vehicle. The research is expected to yield formal methods and tools in the broader field of data-enriched modeling, control, and optimization of human-centric cyber-physical systems that can have transformative impacts beyond the specific application considered in this project, such as robotics, shared autonomy, and reinforcement learning. This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

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CRII: CPS: Human-Centric Connected and Automated Vehicles for Sustainable Mobility · GrantIndex