自适应主动学习的加权集合

IF 4.6 2区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Signal Processing Pub Date : 2024-08-26 DOI:10.1109/TSP.2024.3450270

Konstantinos D. Polyzos;Qin Lu;Georgios B. Giannakis

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引用次数: 0

摘要

在医疗成像、机器人、计算机视觉和无线网络等多个应用领域，获取标签数据的成本都很高。为了在如此高昂的标注成本下高效地训练机器学习模型，主动学习（AL）可以明智地选择信息量最大的数据实例进行即时标注。这种主动采样过程可以从统计函数模型中获益，该模型通常由高斯过程（GP）来捕捉，其优点有据可查，尤其是在回归任务中。大多数基于 GP 的 AL 方法都依赖于单个核函数，而本论文则主张使用权重适应增量收集的标记数据的 GP（EGP）模型集合。在这一新颖的 EGP 模型基础上，根据不确定性和分歧规则产生了一套获取函数。我们提倡基于 EGP 的自适应加权采集函数集合，以进一步提高性能。在回归任务中对合成数据集和真实数据集进行的大量测试表明，与基于 GP 的单一 AL 方法相比，所提出的基于 EGP 的方法更具优势。

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Weighted Ensembles for Adaptive Active Learning

Labeled data can be expensive to acquire in several application domains, including medical imaging, robotics, computer vision and wireless networks to list a few. To efficiently train machine learning models under such high labeling costs, active learning (AL) judiciously selects the most informative data instances to label on-the-fly. This active sampling process can benefit from a statistical function model, that is typically captured by a Gaussian process (GP) with well-documented merits especially in the regression task. While most GP-based AL approaches rely on a single kernel function, the present contribution advocates an ensemble of GP (EGP) models with weights adapted to the labeled data collected incrementally. Building on this novel EGP model, a suite of acquisition functions emerges based on the uncertainty and disagreement rules. An adaptively weighted ensemble of EGP-based acquisition functions is advocated to further robustify performance. Extensive tests on synthetic and real datasets in the regression task showcase the merits of the proposed EGP-based approaches with respect to the single GP-based AL alternatives.

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来源期刊

IEEE Transactions on Signal Processing 工程技术-工程：电子与电气

CiteScore

11.20

自引率

9.30%

发文量

310

审稿时长

3.0 months

期刊介绍： The IEEE Transactions on Signal Processing covers novel theory, algorithms, performance analyses and applications of techniques for the processing, understanding, learning, retrieval, mining, and extraction of information from signals. The term “signal” includes, among others, audio, video, speech, image, communication, geophysical, sonar, radar, medical and musical signals. Examples of topics of interest include, but are not limited to, information processing and the theory and application of filtering, coding, transmitting, estimating, detecting, analyzing, recognizing, synthesizing, recording, and reproducing signals.