Abstract Ubiquitous, commercial deployment of automated road vehicles is desirable in order to realize their potential benefits such as crash avoidance, congestion mitigation, reduced environment impact, reduced driver stress, and increased driver productivity. A rigorous application of systems engineering, which includes validation and verification as crucial elements of assurance, is needed for the design and development of automated road vehicles. We discuss, without implying any form of joint recommendation, several areas of relevance to a common understanding of validation and verification of automated vehicles, namely customer expectations for vehicle response, industry standards for terms and definitions, industry standards for how measurement should be done, deeper knowledge of driving behavior today to serve as a reference, and standardized processes that encompass minimum performance requirements.
Validation and Verification of Automated Road Vehicles
2016-01-01
10 pages
Article/Chapter (Book)
Electronic Resource
English
Systems engineering , Industry standards , Automated road vehicles , Terms and definitions , Commercial deployment , Customer expectations , Validation and verification , Measurement standards , Driving behavior Transportation , Automotive Engineering , Innovation/Technology Management , Engineering , Transportation Technology and Traffic Engineering , Robotics and Automation
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