Abstract
The autonomous vehicle (AVs) market is expanding at a rapid pace due to the advancement of information, communication, and sensor technology applications, offering a broad range of opportunities in terms of energy efficiency and addressing climate change concerns and safety. With regard to this last point, the rate of reduction in accidents is considerable when switching safety control tasks to machines from humans, which can be noted as having significantly slower response rates. This paper explores this thematic by focusing on the safety of AVs by thorough analysis of previously collected AV crash statistics and further discusses possible solutions for achieving increased autonomous vehicle safety. To achieve this, this technical paper develops a dynamic run-time safe assessment system, using the standard autonomous drive system (ADS), which is developed and simulated in case studies further in the paper. OpenCV methods for lane detection are developed and applied as robust control frameworks, which introduces the factor of vehicle crash predictability for the ego vehicle. The developed system is made to predict possible crashes by using a combination of machine learning and neural network methods, providing useful information for response mechanisms in risk scenarios. In addition, this paper explores the operational design domain (ODD) of the AV’s system and provides possible solutions to extend the domain in order to render vehicle operationality, even in safe mode. Additionally, three case studies are explored to supplement a discussion on the implementation of algorithms aimed at increasing curved lane detection ability and introducing trajectory predictability of neighbouring vehicles for an ego vehicle, resulting in lower collisions and increasing the safety of the AV overall. This paper thus explores the technical development of autonomous vehicles and is aimed at researchers and practitioners engaging in the conceptualisation, design, and implementation of safer AV systems focusing on lane detection and expanding AV safe state domains and vehicle trajectory predictability.
Highlights
An Autonomous Vehicle (AV) is able to perform partial or complete functions, including, i.a., driving, parking, and lane maintaining, with indirect supervision from the driver or no supervision at all
This paper thoroughly discusses the safety and risk measures and analysis of autonomous vehicles through the developed dynamic run-time safe assessment system to understand how a variation in the operational design domain (ODD) could affect the operation of AVs, so that vehicles could remain operational in safe mode, which is explored via different scenarios and factors
A Co-operative Collision Avoidance (CCA) approach to manoeuvre through incoming vehicles is adopted and discussed, with test cases for V2X communication, via an ’elastic band’ method, and decision-making algorithms, for lane changing and straight lines via Hough transforms
Summary
An Autonomous Vehicle (AV) is able to perform partial or complete functions, including, i.a., driving, parking, and lane maintaining, with indirect supervision from the driver or no supervision at all. Though there are many sensors and communication technologies built into AVs, there are factors of risk involved which need to be properly addressed These risks can occur in scenarios which are highly spontaneous and dynamic where AV systems are not able to distinguish a curved from a straight road, to navigate foggy conditions, to predict movements of surrounding vehicles, to judge high speed lane changes, etc. Alphabet’s Waymo has been reported to have developed similar technologies and the abovementioned methods, where it is claimed that their AV model has completed up to 20 million miles (equivalent to 32 million KM) on a complete autonomous drive [12], which is a significant milestone to reach market use This leads to a substantial pool of data collected by the system’s LIDAR and subsequent cameras, where the data are stored both on the car’s in-built computer and synchronized through centralized systems for processing.
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