Hybrid Discrete Wavelet Enhancement Model for Brain NCCT Images

2022 International Conference on Electronics and Renewable Systems (ICEARS) Pub Date : 2022-03-16 DOI:10.1109/ICEARS53579.2022.9751933

Simarjeet Kaur, Jimmy Singla

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Abstract

NCCT brain images are widely used to diagnose the brain abnormalities. The continued advancement and widespread use of computed tomography in medical science has increased the harmful effect of high dose radiation to patients. Moreover, low dose radiation may result in image deterioration, increase level of noise and artifacts which effects the radiologists' decisions. Different image denoising algorithms may be employed to reduce noise in NCCT images. In this research, a novel HDWN approach has been developed to enhance NCCT image as well as denoise. The proposed method takes into account the inherent properties of noise as well as complementary information of different wavelet coefficients to evaluate the noise in less computing time. Moreover, a directional regularizer has been incorporated to control the uneven pattern of noise and to differentiate image details from noise. Experiments have been performed on real NCCT brain images collected for diagnostic center. The performance metrics PSNR, SSIM, MSE have been used to measure the results. The proposed method outperforms many denoising and image enhancement state of art methods in both quantitative and qualitative measures.

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脑NCCT图像的混合离散小波增强模型

NCCT脑图像被广泛用于诊断脑异常。计算机断层扫描技术在医学上的不断进步和广泛应用增加了高剂量辐射对患者的有害影响。此外，低剂量辐射可能导致图像恶化，增加噪音和伪影，影响放射科医生的决定。可以采用不同的图像去噪算法来降低NCCT图像中的噪声。在本研究中，开发了一种新的HDWN方法来增强NCCT图像和去噪。该方法利用噪声的固有特性和不同小波系数的互补信息，在较短的计算时间内对噪声进行评估。此外，还引入了方向正则化器来控制噪声的不均匀模式，并将图像细节与噪声区分开来。对诊断中心采集的真实NCCT脑图像进行了实验。性能指标PSNR, SSIM, MSE已被用来衡量结果。该方法在定量和定性两方面都优于当前许多去噪和图像增强方法。

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2022 International Conference on Electronics and Renewable Systems (ICEARS)

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