Optimal Synthesis of Robust IDK Classifier Cascades

IF 2.8 3区 计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Sanjoy Baruah, Alan Burns, Robert Ian Davis
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引用次数: 0

Abstract

An IDK classifier is a computing component that categorizes inputs into one of a number of classes, if it is able to do so with the required level of confidence, otherwise it returns “I Don’t Know” (IDK). IDK classifier cascades have been proposed as a way of balancing the needs for fast response and high accuracy in classification-based machine perception. Efficient algorithms for the synthesis of IDK classifier cascades have been derived; however, the responsiveness of these cascades is highly dependent on the accuracy of predictions regarding the run-time behavior of the classifiers from which they are built. Accurate predictions of such run-time behavior is difficult to obtain for many of the classifiers used for perception. By applying the algorithms using predictions framework, we propose efficient algorithms for the synthesis of IDK classifier cascades that are robust to inaccurate predictions in the following sense: the IDK classifier cascades synthesized by our algorithms have short expected execution durations when the predictions are accurate, and these expected durations increase only within specified bounds when the predictions are inaccurate.
鲁棒IDK分类器级联的最优综合
IDK分类器是一个计算组件,如果它能够以所需的置信度将输入分类为多个类中的一个,否则它返回“我不知道”(IDK)。IDK分类器级联被提出作为一种平衡基于分类的机器感知对快速响应和高精度需求的方法。推导了IDK分类器级联综合的有效算法;然而,这些级联的响应性高度依赖于构建它们的分类器的运行时行为预测的准确性。对于用于感知的许多分类器来说,很难获得这种运行时行为的准确预测。通过应用使用预测框架的算法,我们提出了用于合成IDK分类器级联的有效算法,这些算法在以下意义上对不准确的预测具有鲁棒性:当预测准确时,由我们的算法合成的IDK分类器级联具有较短的预期执行持续时间,并且当预测不准确时,这些预期持续时间仅在指定的范围内增加。
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来源期刊
ACM Transactions on Embedded Computing Systems
ACM Transactions on Embedded Computing Systems 工程技术-计算机:软件工程
CiteScore
3.70
自引率
0.00%
发文量
138
审稿时长
6 months
期刊介绍: The design of embedded computing systems, both the software and hardware, increasingly relies on sophisticated algorithms, analytical models, and methodologies. ACM Transactions on Embedded Computing Systems (TECS) aims to present the leading work relating to the analysis, design, behavior, and experience with embedded computing systems.
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