A homogeneous low-resolution face recognition method using correlation features at the edge

Defense + Commercial Sensing Pub Date : 2024-06-06 DOI:10.1117/12.3008368

Xuan Zhao, Deeraj Nagothu, Yu Chen

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Abstract

Face recognition technology has been well investigated in past decades and widely deployed in many real-world applications. However, low-resolution face recognition is still a challenging task in resource-constrained edge computing environment like the Internet of Video Things (IoVT) applications. For instance, low-resolution images are common in surveillance video streams, in which the rare information, variable angles, and light conditions create difficulties for recognition tasks. To address these problems, we optimized the correlation feature face recognition (CoFFaR) method and conducted experimental studies in two data preparation modes, symmetric and exhaustive arranging. The experimental results show that the CoFFaR method achieved an accuracy rate of over 82.56%, and the two-dimensional (2D) feature points after dimension reduction are uniformly distributed in a diagonal pattern. The analysis leads to the conclusion that the data augmentation advantage brought by the method of exhaustive arranging data preparation can effectively improve the performance, and the constraints by making the feature vector closer to its clustering center have no apparent improvement in the accuracy of the model identification.

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利用边缘相关特征的同质低分辨率人脸识别方法

过去几十年来，人脸识别技术得到了深入研究，并在许多现实世界的应用中得到了广泛部署。然而，在视频物联网（IoVT）应用等资源受限的边缘计算环境中，低分辨率人脸识别仍然是一项具有挑战性的任务。例如，低分辨率图像在监控视频流中很常见，其中的稀有信息、多变的角度和光线条件给识别任务带来了困难。针对这些问题，我们优化了相关特征人脸识别（CoFFaR）方法，并在对称和穷举两种数据准备模式下进行了实验研究。实验结果表明，CoFFaR 方法的准确率超过 82.56%，降维后的二维特征点呈对角线均匀分布。分析得出的结论是，穷举排列数据准备方法带来的数据增强优势能有效提高性能，而通过使特征向量更接近其聚类中心的约束对模型识别的准确性没有明显改善。

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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Defense + Commercial Sensing

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