A Multi-layered Collaborative Framework for Evidence-driven Data Requirements Engineering for Machine Learning-based Safety-critical Systems

IF 0.4 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS
Sangeeta Dey, Seok-Won Lee
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引用次数: 0

Abstract

In the days of AI, data-centric machine learning (ML) models are increasingly used in various complex systems. While many researchers are focusing on specifying ML-specific performance requirements, not enough guideline is provided to engineer the data requirements systematically involving diverse stakeholders. Lack of written agreement about the training data, collaboration bottlenecks, lack of data validation framework, etc. are posing new challenges to ensuring training data fitness for safety-critical ML components. To reduce these gaps, we propose a multi-layered framework that helps to perceive and elicit data requirements. We provide a template for verifiable data requirements specifications. Moreover, we show how such requirements can facilitate an evidence-driven assessment of the training data quality based on the experts' judgments about the satisfaction of the requirements. We use Dempster Shafer's theory to combine experts' subjective opinions in the process. A preliminary case study on the CityPersons dataset for the pedestrian detection feature of autonomous cars shows the usefulness of the proposed framework for data requirements understanding and the confidence assessment of the dataset.
基于机器学习的安全关键系统证据驱动数据需求工程的多层协作框架
在人工智能时代,以数据为中心的机器学习(ML)模型越来越多地用于各种复杂系统。虽然许多研究人员专注于指定特定于ml的性能需求,但没有提供足够的指南来系统地设计涉及不同利益相关者的数据需求。缺乏关于训练数据的书面协议、协作瓶颈、缺乏数据验证框架等,都对确保训练数据适合安全关键的ML组件构成了新的挑战。为了减少这些差距,我们提出了一个多层框架来帮助感知和引出数据需求。我们为可验证的数据需求规范提供了一个模板。此外,我们展示了这些需求如何能够促进基于专家对需求满意度的判断的训练数据质量的证据驱动评估。我们运用Dempster Shafer的理论,结合专家的主观意见。对自动驾驶汽车行人检测特征的CityPersons数据集的初步案例研究表明,所提出的框架对于数据需求理解和数据集置信度评估的有用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Applied Computing Review
Applied Computing Review COMPUTER SCIENCE, INFORMATION SYSTEMS-
自引率
40.00%
发文量
8
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