基于混合修正快速小波变换的无音频去噪方法

International Journal Of Trendy Research In Engineering And Technology Pub Date : 1900-01-01 DOI:10.54473/ijtret.2022.6604

Dr. P. Senthilkumar, 2Asha.V, Dr.G. Ramesh, M.Muthukumar, Dr. Amairullah Khan Lodhi

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引用次数: 0

摘要

噪音包括所有不受欢迎的环境声音。如果一种声音被认为是令人愉快的音乐或令人讨厌的噪音，它将被认为具有相同的分贝水平。音频信号中噪声的根本缺点是它会在通信系统中传输时降低信号的质量。本研究使用麦克风收集实时音频信号。AWGN的加性高斯白噪声与真实音源混合。带小波变换的中值有限脉冲响应滤波器是一种混合滤波器，用于去噪音频信号，它结合了中值滤波器，FIR滤波器和小波变换技术(MFWT)。本研究使用峰值信噪比和均方误差(MSE)来评估MFWT性能(PSNR)。在信噪比(82.04)和RMSE评分方面，MFWT优于中值滤波器、FIR滤波器和小波变换(0.055)。

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ANAUDIO DENOISING APPROACH USING HYBRID MODIFIED FAST WAVELET TRANSFORM METHOD

Noise includes all unwelcome ambient sounds. If a sound is perceived as delightful music or annoying noise, it will be perceived as having the same decibel level. The fundamental drawback of noise in an audio signal is that it degrades the signal's quality during transmission over the communication system. Real-time audio signals are gathered for the present study using a microphone. The additive white Gaussian noise of AWGN is blended with a genuine audio source. The Median, Finite Impulse Response filter with Wavelet Transform approach is a hybrid filter for denoising audio signals that incorporates the Median Filter, FIR Filter, and Wavelet Transform techniques (MFWT). In this study Peak Signal to Noise Ratio and Mean Square Error (MSE) are used to assess MFWT performance(PSNR). In terms of SNR (82.04) and RMSE score, MFWT performs better than the median filter, FIR filter, and Wavelet transform (0.055).

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International Journal Of Trendy Research In Engineering And Technology

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