在分层深度集合中使用代价高昂的特征进行分类

IF 4.3 3区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Machine Learning Pub Date : 2024-05-22 DOI:10.1007/s10994-024-06565-4
Jaromír Janisch, Tomáš Pevný, Viliam Lisý
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引用次数: 0

摘要

高成本特征分类(CwCF)是一种将特征成本纳入优化标准的分类问题。对于每个样本,都要按顺序获取其特征,以最大限度地提高准确率,同时最小化获取特征的成本。然而,现有方法只能处理以固定长度向量表示的数据。在现实生活中,数据往往具有丰富而复杂的结构,而 XML 或 JSON 等格式可以更精确地描述这些结构。数据是分层的,通常包含嵌套的对象列表。在这项工作中,我们利用分层深度集和分层软最大值扩展了现有的基于深度强化学习的算法,使其可以直接处理这些数据。通过对七个数据集的实验,我们发现这种扩展方法能更好地控制所能获取的特征,从而带来更出色的性能。为了展示新方法的实际用途,我们将其应用于一个实际问题,即利用在线服务对恶意网站域名进行分类。
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Classification with costly features in hierarchical deep sets

Classification with costly features (CwCF) is a classification problem that includes the cost of features in the optimization criteria. Individually for each sample, its features are sequentially acquired to maximize accuracy while minimizing the acquired features’ cost. However, existing approaches can only process data that can be expressed as vectors of fixed length. In real life, the data often possesses rich and complex structure, which can be more precisely described with formats such as XML or JSON. The data is hierarchical and often contains nested lists of objects. In this work, we extend an existing deep reinforcement learning-based algorithm with hierarchical deep sets and hierarchical softmax, so that it can directly process this data. The extended method has greater control over which features it can acquire and, in experiments with seven datasets, we show that this leads to superior performance. To showcase the real usage of the new method, we apply it to a real-life problem of classifying malicious web domains, using an online service.

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来源期刊
Machine Learning
Machine Learning 工程技术-计算机:人工智能
CiteScore
11.00
自引率
2.70%
发文量
162
审稿时长
3 months
期刊介绍: Machine Learning serves as a global platform dedicated to computational approaches in learning. The journal reports substantial findings on diverse learning methods applied to various problems, offering support through empirical studies, theoretical analysis, or connections to psychological phenomena. It demonstrates the application of learning methods to solve significant problems and aims to enhance the conduct of machine learning research with a focus on verifiable and replicable evidence in published papers.
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