Defining Quality Requirements for a Trustworthy AI Wildflower Monitoring Platform

2023 IEEE/ACM 2nd International Conference on AI Engineering – Software Engineering for AI (CAIN) Pub Date : 2023-03-23 DOI:10.1109/CAIN58948.2023.00029

P. Heck, Gerard Schouten

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Abstract

For an AI solution to evolve from a trained machine learning model into a production-ready AI system, many more things need to be considered than just the performance of the machine learning model. A production-ready AI system needs to be trustworthy, i.e. of high quality. But how to determine this in practiceƒ For traditional software, ISO25000 and its predecessors have since long time been used to define and measure quality characteristics. Recently, quality models for AI systems, based on ISO25000, have been introduced. This paper applies one such quality model to a real-life case study: a deep learning platform for monitoring wildflowers. The paper presents three realistic scenarios sketching what it means to respectively use, extend and incrementally improve the deep learning platform for wildflower identification and counting. Next, it is shown how the quality model can be used as a structured dictionary to define quality requirements for data, model and software. Future work remains to extend the quality model with metrics, tools and best practices to aid AI engineering practitioners in implementing trustworthy AI systems.

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定义可信赖AI野花监测平台的质量要求

为了使人工智能解决方案从训练有素的机器学习模型演变为生产就绪的人工智能系统，除了机器学习模型的性能之外，还需要考虑更多的事情。生产就绪的人工智能系统需要值得信赖，即高质量。但是在实践中如何确定呢?对于传统软件来说，ISO25000及其前身长期以来一直被用来定义和测量质量特性。最近，基于ISO25000的人工智能系统质量模型已经被引入。本文将一个这样的质量模型应用于一个现实生活中的案例研究:一个监测野花的深度学习平台。本文提出了三种现实场景，概述了分别使用、扩展和逐步改进用于野花识别和计数的深度学习平台的意义。接下来，展示了如何将质量模型用作结构化字典来定义数据、模型和软件的质量需求。未来的工作仍然是用度量、工具和最佳实践来扩展质量模型，以帮助人工智能工程从业者实现值得信赖的人工智能系统。

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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2023 IEEE/ACM 2nd International Conference on AI Engineering – Software Engineering for AI (CAIN)

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