Incremental exemplar learning schemes for classification on embedded devices

作者:Ankur Jain, Daniel Nikovski

摘要

Although memory-based classifiers offer robust classification performance, their widespread usage on embedded devices is hindered due to the device’s limited memory resources. Moreover, embedded devices often operate in an environment where data exhibits evolutionary changes which entails frequent update of the in-memory training data. A viable option for dealing with the memory constraint is to use Exemplar Learning (EL) schemes that learn a small memory set (called the exemplar set) of high functional information that fits in memory. However, traditional EL schemes have several drawbacks that make them inapplicable for embedded devices; (1) they have high memory overheads and are unable to handle incremental updates to the exemplar set, (2) they cannot be customized to obtain exemplar sets of any user-defined size that fits in the memory and (3) they learn exemplar sets based on local neighborhood structures that do not offer robust classification performance. In this paper, we propose two novel EL schemes, \(\mathsf{EBEL}\) (Entropy-Based Exemplar Learning) and \(\mathsf{ABEL}\) (AUC-Based Exemplar Learning) that overcome the aforementioned short-comings of traditional EL algorithms. We show that our schemes efficiently incorporate new training datasets while maintaining high quality exemplar sets of any user-defined size. We present a comprehensive experimental analysis showing excellent classification-accuracy versus memory-usage tradeoffs using our proposed methods.

论文关键词:Exemplar learning, Instance-based learning, Parzen density estimator, AUC analysis, Entropy and mutual information

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论文官网地址:https://doi.org/10.1007/s10994-008-5067-5