Litcius/Paper detail

Taxonomy of Machine Learning Safety: A Survey and Primer

Sina Mohseni, Haotao Wang, Chaowei Xiao, Zhiding Yu, Zhangyang Wang, Jay Yadawa

2022ACM Computing Surveys44 citationsDOIOpen Access PDF

Abstract

The open-world deployment of Machine Learning (ML) algorithms in safety-critical applications such as autonomous vehicles needs to address a variety of ML vulnerabilities such as interpretability, verifiability, and performance limitations. Research explores different approaches to improve ML dependability by proposing new models and training techniques to reduce generalization error, achieve domain adaptation, and detect outlier examples and adversarial attacks. However, there is a missing connection between ongoing ML research and well-established safety principles. In this article, we present a structured and comprehensive review of ML techniques to improve the dependability of ML algorithms in uncontrolled open-world settings. From this review, we propose the Taxonomy of ML Safety that maps state-of-the-art ML techniques to key engineering safety strategies. Our taxonomy of ML safety presents a safety-oriented categorization of ML techniques to provide guidance for improving dependability of the ML design and development. The proposed taxonomy can serve as a safety checklist to aid designers in improving coverage and diversity of safety strategies employed in any given ML system.

Topics & Concepts

Computer scienceDependabilityTaxonomy (biology)CategorizationMachine learningArtificial intelligenceSafety caseInterpretabilityDomain (mathematical analysis)Software engineeringRisk analysis (engineering)BotanyMedicineBiologyMathematical analysisMathematicsAdversarial Robustness in Machine LearningSoftware Reliability and Analysis ResearchSafety Systems Engineering in Autonomy