Posters (Sessions 8 & 11)

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Visible to the public Models and System-Level Coordination Algorithms for Power-in-the-Loop Autonomous Mobility-on-Demand Systems_Alizadeh

Submitted by mahnoosh.a on Tue, 01/22/2019 - 7:37pm. Contributors:

Overview: The goal of this project is to devise computational methods for the optimal coordination of autonomous mobility-on-demand (AMoD) systems, with a central focus on accounting for the couplings between the power and transportation networks. AMoD is a rapidly developing mode of transportation wherein self-driving, electric vehicles transport passengers on demand in a given environment (similar to an Uber system, but with self-driving, electric vehicles).

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Visible to the public Minimizing the Oracle Problem for Self-Adaptive Cyber-Physical Systems

Submitted by Anonymous on Tue, 01/22/2019 - 7:37pm. Contributor:

Cyber-physical systems (CPS), particularly those within the safety-critical domain, must continually ensure that their requirements are being satisfied. To support online requirements satisfaction, a CPS can be modeled with self-adaptive characteristics (SA-CPS) to enable the system to self-reconfigure as uncertainty manifests in both the environment and the system itself.

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Visible to the public Machine Learning Enabled Smart Nets to Optimize Sustainable Fisheries Technologies

Submitted by suleozev on Tue, 01/22/2019 - 7:37pm. Contributors:

The proposal targets novel CPS challenges by aiming to develop a system that provides dynamic assessment of the interaction between sea life and smart nets. The CPS explores challenges in machine learning to continuously assess the response to sensory cues for individual species that must be determined in real time to enable modulation of the sensory cues to determine efficacy per species.

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Visible to the public Maneuver and Data Optimization for High Confidence Testing of Future Automotive Cyber-Physical Systems

Submitted by Ilya V. Kolmanovsky on Tue, 01/22/2019 - 7:37pm. Contributors:

Our research addresses urgent challenges in high confidence testing of automotive systems due to on-going and anticipated introduction of advanced, connected, and autonomous vehicle technologies. We have pursued the development of tools for maneuver and data optimization to determine test trajectories and scenarios to facilitate vehicle testing. Our approaches exploit game theoretic traffic interaction modeling to inform in-traffic relevant trajectories, model-free optimization to identify trajectories falsifying time domain specifications, and the development of Smart Bla

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Visible to the public Matching Parking Supply to Travel Demand towards Sustainability

Submitted by Michael Zhang on Tue, 01/22/2019 - 7:37pm. Contributors:

Parking can take up a significant amount of the trip costs (time and money) in urban travel. As such, it can considerably influence travelers' choices of modes, locations, and time of travel. The advent of smart sensors, wireless communications, social media and big data analytics offers a unique opportunity to tap parking's influence on travel to make the transportation system more efficient, cleaner, and more resilient. A cyber-physical social system for parking is proposed to realize parking's potential in achieving the above goals.