利用 CNN 和主成分分析实现音频压缩中的动态差异控制

Asish Debnath, Uttam Kr. Mondal
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摘要

这项研究解决了大量音频文件存储需求和不断增长的网络带宽需求所带来的挑战。本文提出了一种新型音频编解码器设计,将音频样本分离、用户输入方差控制主成分分析(PCA)和卷积神经网络(CNN)整合在一起。PCA 计算样本方差特征向量、提取主成分并确定压缩率。该方法利用 PCA 和 CNN 高效压缩音频,从而获得高质量的重构音频。实验结果表明,增加 PCA 分量通常会提高 PSNR 值,而减少分量则会降低 CR、MSE 和其他误差指标。仿真结果得到了分析,并与其他具有各种统计和鲁棒性特征的现有无损音频编码方案进行了比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Leveraging CNN and principal component analysis for dynamic variance control in audio compression

Leveraging CNN and principal component analysis for dynamic variance control in audio compression

This study addresses challenges arising from large audio file storage needs and rising network bandwidth demands. In this paper, a novel audio codec design is proposed, integrating audio sample segregation, user input variance controlled principal component analysis (PCA), and Convolutional Neural Network (CNN). PCA computes sample variance feature vectors, extracts principal components, and determines compression rates. This method leverages PCA and CNN to compress audio efficiently, yielding high-quality reconstructed audio. Experimental results show that increasing PCA components generally improves PSNR values, while decreasing components may reduce CR, MSE, and other error metrics. The simulation results are analyzed and compared to other existing lossless audio encoding schemes with various statistical and robustness features.

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