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Project

Accident-prone Vision-based Simulation for Autonomous Safety-critical Systems

Autonomous navigation has been gaining much traction recently. As a result, we see autonomy developing in vehicles and finding its way in many transportation sectors (including smart shipping). Nevertheless, the current state-of-the-art (SOTA) technology is not mature enough to have a widespread application at a higher autonomy level (e.g. level 4 and above). The main reason is that these systems are trained on a lot of real-world data, which often lacks accident-prone scenarios. In order to solve this problem, I propose a solution based on data-driven neural simulations that provide realistic data based on real-world samples and generate unsafe scenarios (collisions, accidents, etc.). Moreover, my system also provides safety checks to validate unsafe scenarios and provide safe boundaries for the current autonomous systems.
Date:1 Nov 2022 →  Today
Keywords:MODELLING, LANGUAGE PROCESSING, IMAGE PROCESSING, SIMULATIONS
Disciplines:Computer vision, Image and language processing, Pattern recognition and neural networks, Modelling and simulation, Analogue and digital signal processing