IMAGE PROCESSING IN FREQUENCY DOMAIN USING MATLAB

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kokilavani c; G.Sandra Karunya; A.Mathan Gopi; D.Rajinigirinath

IMAGE PROCESSING IN FREQUENCY DOMAIN USING MATLAB

Authors: kokilavani c, G.Sandra Karunya, A.Mathan Gopi, D.Rajinigirinath

Unique Paper ID: 148074
PageNo: 262-268

Keywords: ECG signal quality assessment ECG noise detection and classification muscle artifacts baseline wander ECG denoising

Abstract:
Objective: image processing in frequency and classification of noises can play a vital role in the development of robust unsu-pervised electrocardiogram (ECG) analysis systems. This paper proposes a novel unified framework for automatic detection, localization and classification of single and combined ECG noises. Methods: The proposed framework consists of the modified ensemble empirical mode decomposition (CEEMD), the short-term temporal feature extraction, and the decision rules based noise detection and classification. In the proposed framework, ECG signals are first decomposed using the modified CEEMD algorithm for discriminating the ECG components from the noises and artifacts. Then, the short-term temporal features such as maximum absolute amplitude, number of zerocrossings, and local maximum peak amplitude of the autocorrelation function are computed from the extracted high-frequency (HF) and low-frequency (LF) signals. Finally, a decision rule-based algorithm is presented for detecting the presence of noises and classifying the processed ECG signals into six signal groups: noise-free ECG, ECG+BW, ECG+MA, ECG+PLI, ECG+BW+PLI, and ECG+BW+MA. Results: The proposed framework is rigorously evaluated on five benchmark ECG databases and the real-time ECG signals. The proposed framework achieves an average sensitivity of 99.12%, specificity of 98.56%, and overall accuracy of 98.90% in detecting the presence of noises. Classification results show that the framework achieves an average sensitivity, positive predicticvity, and classification accuracy of 98.93%, 98.39% and 97.38%, respectively. Conclusion: The proposed framework not only achieves better noise detection and classification rates than the current state-of-the-art methods but also accurately localizes short bursts of noises with low endpoint delineation errors. Significance: Extensive studies on benchmark databases demonstrate that the proposed framework is more suitable for reducing false alarm rates and selecting appropriate noise-specific denoising techniques in automated ECG analysis applications.

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Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{148074,
        author = {kokilavani c and G.Sandra Karunya and A.Mathan Gopi and D.Rajinigirinath},
        title = {IMAGE PROCESSING IN FREQUENCY DOMAIN USING MATLAB },
        journal = {International Journal of Innovative Research in Technology},
        year = {},
        volume = {5},
        number = {12},
        pages = {262-268},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=148074},
        abstract = {Objective: image processing in frequency and classification of noises can play a vital role in the development of robust unsu-pervised electrocardiogram (ECG) analysis systems. This paper proposes a novel unified framework for automatic detection, localization and classification of single and combined ECG noises. Methods: The proposed framework consists of the modified ensemble empirical mode decomposition (CEEMD), the short-term temporal feature extraction, and the decision rules based noise detection and classification. In the proposed framework, ECG signals are first decomposed using the modified CEEMD algorithm for discriminating the ECG components from the noises and artifacts. Then, the short-term temporal features such as maximum absolute amplitude, number of zerocrossings, and local maximum peak amplitude of the autocorrelation function are computed from the extracted high-frequency (HF) and low-frequency (LF) signals. Finally, a decision rule-based algorithm is presented for detecting the presence of noises and classifying the processed ECG signals into six signal groups: noise-free ECG, ECG+BW, ECG+MA, ECG+PLI, ECG+BW+PLI, and ECG+BW+MA. Results: The proposed framework is rigorously evaluated on five benchmark ECG databases and the real-time ECG signals. The proposed framework achieves an average sensitivity of 99.12%, specificity of 98.56%, and overall accuracy of 98.90% in detecting the presence of noises. Classification results show that the framework achieves an average sensitivity, positive predicticvity, and classification accuracy of 98.93%, 98.39% and 97.38%, respectively. Conclusion: The proposed framework not only achieves better noise detection and classification rates than the current state-of-the-art methods but also accurately localizes short bursts of noises with low endpoint delineation errors. Significance: Extensive studies on benchmark databases demonstrate that the proposed framework is more suitable for reducing false alarm rates and selecting appropriate noise-specific denoising techniques in automated ECG analysis applications.},
        keywords = {ECG signal quality assessment, ECG noise detection and classification, muscle artifacts, baseline wander, ECG denoising},
        month = {},
        }

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Cite This Article

c, K., & Karunya, G., & Gopi, A., & D.Rajinigirinath, (). IMAGE PROCESSING IN FREQUENCY DOMAIN USING MATLAB . International Journal of Innovative Research in Technology (IJIRT), 5(12), 262–268.

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