Finite impulse response design based on two-level transpose Vedic multiplier for medical image noise reduction

IF 1.3 4区 计算机科学 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC ETRI Journal Pub Date : 2024-02-25 DOI:10.4218/etrij.2023-0335
Joghee Prasad, Arun Sekar Rajasekaran, J. Ajayan, Kambatty Bojan Gurumoorthy
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Abstract

Medical signal processing requires noise and interference-free inputs for precise segregation and classification operations. However, sensing and transmitting wireless media/devices generate noise that results in signal tampering in feature extractions. To address these issues, this article introduces a finite impulse response design based on a two-level transpose Vedic multiplier. The proposed architecture identifies the zero-noise impulse across the varying sensing intervals. In this process, the first level is the process of transpose array operations with equalization implemented to achieve zero noise at any sensed interval. This transpose occurs between successive array representations of the input with continuity. If the continuity is unavailable, then the noise interruption is considerable and results in signal tampering. The second level of the Vedic multiplier is to optimize the transpose speed for zero-noise segregation. This is performed independently for the zero- and nonzero-noise intervals. Finally, the finite impulse response is estimated as the sum of zero- and nonzero-noise inputs at any finite classification.

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基于两级转置吠陀乘法器的有限脉冲响应设计,用于医疗图像降噪
医疗信号处理需要无噪声、无干扰的输入,以便进行精确的分离和分类操作。然而,传感和传输无线媒体/设备会产生噪声,导致特征提取中的信号篡改。为了解决这些问题,本文介绍了一种基于两级转置吠陀乘法器的有限脉冲响应设计。所提出的架构可识别不同传感间隔内的零噪声脉冲。在这一过程中,第一级是转置阵列运算过程,通过均衡实现任何感应间隔的零噪声。这种转置发生在具有连续性的输入的连续阵列表示之间。如果没有连续性,那么噪声干扰就会很大,导致信号被篡改。吠陀乘法器的第二级是优化转置速度,以实现零噪声分离。这项工作针对零噪声和非零噪声区间独立进行。最后,将有限脉冲响应估算为任何有限分类下的零噪声和非零噪声输入之和。
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来源期刊
ETRI Journal
ETRI Journal 工程技术-电信学
CiteScore
4.00
自引率
7.10%
发文量
98
审稿时长
6.9 months
期刊介绍: ETRI Journal is an international, peer-reviewed multidisciplinary journal published bimonthly in English. The main focus of the journal is to provide an open forum to exchange innovative ideas and technology in the fields of information, telecommunications, and electronics. Key topics of interest include high-performance computing, big data analytics, cloud computing, multimedia technology, communication networks and services, wireless communications and mobile computing, material and component technology, as well as security. With an international editorial committee and experts from around the world as reviewers, ETRI Journal publishes high-quality research papers on the latest and best developments from the global community.
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