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1. Safeguarding Personal Identifiable Information (PII) after Smartphone Pairing with a Connected Vehicle

   https://doi.org/10.3390/jsan13050063  

   Carlton, Jason; Malik, Hafiz (October 2024, Journal of Sensor and Actuator Networks)

   The integration of connected autonomous vehicles (CAVs) has significantly enhanced driving convenience, but it has also raised serious privacy concerns, particularly regarding the personal identifiable information (PII) stored on infotainment systems. Recent advances in connected and autonomous vehicle control, such as multi-agent system (MAS)-based hierarchical architectures and privacy-preserving strategies for mixed-autonomy platoon control, underscore the increasing complexity of privacy management within these environments. Rental cars with infotainment systems pose substantial challenges, as renters often fail to delete their data, leaving it accessible to subsequent renters. This study investigates the risks associated with PII in connected vehicles and emphasizes the necessity of automated solutions to ensure data privacy. We introduce the Vehicle Inactive Profile Remover (VIPR), an innovative automated solution designed to identify and delete PII left on infotainment systems. The efficacy of VIPR is evaluated through surveys, hands-on experiments with rental vehicles, and a controlled laboratory environment. VIPR achieved a 99.5% success rate in removing user profiles, with an average deletion time of 4.8 s or less, demonstrating its effectiveness in mitigating privacy risks. This solution highlights VIPR as a critical tool for enhancing privacy in connected vehicle environments, promoting a safer, more responsible use of connected vehicle technology in society. 

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2. Vehicle-to-X Communications: The Killer Application of Millimeter Wave

   https://doi.org/10.1145/3130242.3131489  

   Heath, Robert Wendell (October 2017, Proceedings of the 1st ACM Workshop on Millimeter-Wave Networks and Sensing Systems)

   Vehicles are becoming more intelligent and automated. To achieve higher automation levels, vehicles are being equipped with more and more sensors. High data rate connectivity seems critical to allow vehicles and road infrastructure exchanging all these sensor data to enlarge their sensing range and make better safety related decisions. Connectivity also enables other applications such as infotainment or high levels of traffic coordination. Current solutions for vehicular communications though do not support the gigabit-per-second data rates. This presentation makes the case that millimeter wave communication is the only viable approach for high bandwidth connected vehicles. The motivation and challenges associated with using mmWave for vehicle-to-vehicle and vehicle-to-infrastructure applications are highlighted. Examples from recent work are provided including new theoretical results that enable mmWave communication in high mobility scenarios and innovative architectural concepts like position and radar-aided communication. 

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3. Classification of Roadway Infrastructure and Collaborative Automated Driving System

   https://doi.org/10.4271/12-06-04-0026  

   Ran, Bin; Cheng, Yang; Li, Shen; Li, Hanchu; Parker, Steven (December 2023, SAE International Journal of Connected and Automated Vehicles)

   The latest developments in vehicle-to-infrastructure (V2I) and vehicle-to-anything (V2X) technologies enable all the entities in the transportation system to communicate and collaborate to optimize transportation safety, mobility, and equity at the system level. On the other hand, the community of researchers and developers is becoming aware of the critical role of roadway infrastructure in realizing automated driving. In particular, intelligent infrastructure systems, which leverage modern sensors, artificial intelligence, and communication capabilities, can provide critical information and control support to connected and/or automated vehicles to fulfill functions that are infeasible for automated vehicles alone due to technical or cost considerations. However, there is limited research on formulating and standardizing the intelligence levels of road infrastructure to facilitate the development, as the SAE automated driving levels have done for automated vehicles. This article proposes a five-level intelligence definition for intelligent roadway infrastructure, namely, connected and automated highway (CAH). The CAH is a subsystem of the more extensive collaborative automated driving system (CADS), along with the connected automated vehicle (CAV) subsystem. Leveraging the intelligence definition of CAH, the intelligence definition for the CADS is also defined. Examples of how the CAH at different levels operates with the CAV in the CADS are also introduced to demonstrate the dynamic allocation of various automated driving tasks between different entities in the CADS. 

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4. Evaluating the practical range of harmonic radar to detect smart electronics

   https://doi.org/10.1109/MILCOM58377.2023.10356371  

   Perez, Beatrice; Arguello, Cesar; Pierson, Timothy J; Mazzaro, Gregory; Kotz, David (October 2023, IEEE)

   Prior research has found that harmonic radar systems are able to detect the presence of electronic devices, even if the devices are powered off. These systems could be a powerful tool to help mitigate privacy invasions. For example, in a rental property devices such as cameras or microphones may be surreptitiously placed by a landlord to monitor renters without their knowledge or consent. A mobile harmonic radar system may be able to quickly scan the property and locate all electronic devices. The effective range of these systems for detecting consumer-grade electronics, however, has not been quantified. We address that shortcoming in this paper and evaluate a prototype harmonic radar system. We find the system, a variation of what has been proposed in the literature, is able to reliably detect some devices at a range of about two meters. We discuss the effect of hardware on the range of detection and propose an algorithm for automated detection. 

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5. “I Can’t Afford to Move”: Negotiating Neglect and Apartment Disrepair in Los Angeles

   https://doi.org/10.1177/15356841241238462  

   Schmidt, Steven (March 2024, City & Community)

   Sociologists have shown how displacement reproduces inequality among U.S. renters. Less is known about the experiences of renters prior to displacement, or how the trade-offs that renters adopt to avoid moves also stratify families. This article addresses this gap by examining how renters with few housing alternatives manage landlord neglect in routine maintenance. Using interviews with 131 non-Hispanic white and Latina/o, low- and middle-income renters living in Los Angeles, I find that unaffordable rental markets embed disadvantaged families, particularly low-income Latina/o immigrants, into substandard indoor living environments. Unable or reluctant to move, renters endure a process that I call negotiating neglect, which encompasses decision making around repair requests, following up with repair delays, investing personal funds into maintenance, and managing the health consequences of disrepair. Negotiating neglect demands substantial time, cognitive labor, and, at times, financial resources, and for some families, it is a chronic stressor. Taken together, these findings advance prior research on how unaffordable rental markets widen inequalities among families. 

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