Title :
Verification of safety for autonomous unmanned ground vehicles
Author :
Meltz, Daniel ; Guterman, Hugo
Author_Institution :
LAHAV Div., Israel Aerosp. Ind. (IAI), Beer-Sheva, Israel
Abstract :
The existing tools for hardware and software reliability and safety engineering do not supply sufficient solutions regarding AI (Artificial Intelligent) adaptive and learning algorithms, which are being used in autonomous robotics and massively rely on designer experience and include methods such as Heuristic, Rules based decision, Fuzzy Logic, Neural Networks, and Genetic Algorithms, Bayes Networks, etc. Since it is obvious that only this kind of algorithms can deal with the complexity and the uncertainty of the real world environment, suitable safety validation methodology is required. In this paper we present the limitation of the existing reliability and safety engineering tools in dealing with autonomous systems and propose a novel methodology based on statistical testing in simulated environment.
Keywords :
adaptive systems; learning (artificial intelligence); mobile robots; remotely operated vehicles; road vehicles; software reliability; statistical testing; AI; adaptive algorithms; artificial intelligence; autonomous robotics; autonomous unmanned ground vehicles; hardware reliability; learning algorithms; safety engineering; software reliability; statistical testing; Algorithm design and analysis; Artificial intelligence; Robots; Safety; Software; Testing; Vehicles; Performance Testing of Autonomy by Simulation; Robot Autonomy; Robot Autonomy Safety Verification; Safety Verification for Autonomy; Standardization for Robot Autonomy Safety; Unmanned Ground Vehicle;
Conference_Titel :
Electrical & Electronics Engineers in Israel (IEEEI), 2014 IEEE 28th Convention of
Conference_Location :
Eilat
Print_ISBN :
978-1-4799-5987-7
DOI :
10.1109/EEEI.2014.7005895
