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Assessing the Safety and Reliability of Autonomous Vehicles from Road Testing

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arxiv 1908.06540 v1 pith:GBHMRKC5 submitted 2019-08-19 cs.AI cs.CYcs.SE

Assessing the Safety and Reliability of Autonomous Vehicles from Road Testing

classification cs.AI cs.CYcs.SE
keywords testingroadknowledgereliabilitysafetyaccuracyadvantagesassess
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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There is an urgent societal need to assess whether autonomous vehicles (AVs) are safe enough. From published quantitative safety and reliability assessments of AVs, we know that, given the goal of predicting very low rates of accidents, road testing alone requires infeasible numbers of miles to be driven. However, previous analyses do not consider any knowledge prior to road testing - knowledge which could bring substantial advantages if the AV design allows strong expectations of safety before road testing. We present the advantages of a new variant of Conservative Bayesian Inference (CBI), which uses prior knowledge while avoiding optimistic biases. We then study the trend of disengagements (take-overs by human drivers) by applying Software Reliability Growth Models (SRGMs) to data from Waymo's public road testing over 51 months, in view of the practice of software updates during this testing. Our approach is to not trust any specific SRGM, but to assess forecast accuracy and then improve forecasts. We show that, coupled with accuracy assessment and recalibration techniques, SRGMs could be a valuable test planning aid.

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