Guest Editorial: AutoML for Nonstationary Data

IEEE transactions on artificial intelligence Pub Date : 2024-06-25 DOI:10.1109/TAI.2024.3387583

Ran Cheng;Hugo Jair Escalante;Wei-Wei Tu;Jan N. Van Rijn;Shuo Wang;Yun Yang

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Abstract

The five papers in this special section address different aspects of automated machine learning (AutoML) from fundamental algorithms to real-world applications. Developing high-performance machine learning models is a difficult task that usually requires expertise from data scientists and knowledge from domain experts. To make machine learning more accessible and ease the labor-intensive trial-and-error process of searching for the most appropriate machine learning algorithm and the optimal hyperparameter setting, AutoML was developed and has become a rapidly growing area in recent years. AutoML aims at automation and efficiency of the machine learning process across domains and applications. Nowadays, data is commonly collected over time and susceptible to changes, such as in Internet-of-Things (IoT) systems, mobile phone applications and healthcare data analysis. It poses new challenges to the traditional AutoML with the assumption of data stationarity. Interesting research questions arise around whether, when and how to effectively and efficiently deal with non-stationary data in AutoML.

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特邀社论：用于非平稳数据的 AutoML

本专题中的五篇论文探讨了机器自动学习（AutoML）从基础算法到实际应用的不同方面。开发高性能机器学习模型是一项艰巨的任务，通常需要数据科学家的专业知识和领域专家的知识。为了使机器学习更容易获得，并减轻寻找最合适的机器学习算法和最佳超参数设置的劳动密集型试错过程，AutoML应运而生，并成为近年来迅速发展的一个领域。AutoML 旨在实现跨领域和跨应用的机器学习过程的自动化和高效化。如今，数据通常是随时间收集的，并且容易发生变化，例如在物联网（IoT）系统、手机应用和医疗数据分析中。这给以数据固定性为假设的传统 AutoML 带来了新的挑战。围绕是否、何时以及如何在 AutoML 中有效、高效地处理非静态数据，产生了一些有趣的研究问题。

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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