Performance analysis and simulation of IIR anti-notch filter with various structures for gene prediction application

2012 5th International Conference on Computers and Devices for Communication (CODEC) Pub Date : 2012-12-01 DOI:10.1109/CODEC.2012.6509360

Soma Barman, Salil Kumar Biswas, Soumyadip Das, M. Roy

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引用次数: 5

Abstract

Gene prediction is an important topic in genomic research. Various techniques are in use for identification of protein coding regions in genes. Application of Fourier technique is one of the most popular methods of gene prediction, in which prediction algorithm is based on period-3 property of DNA where it exhibits a prominent peak in coding region. Spectrum estimation by Fourier method generates various harmonics, generally known as 1/f noise along with sharp peaks, which may lead to false prediction of coding regions. Researchers used various parametric and non-parametric filters to tackle this problem and improve the accuracy of prediction. Performance of anti-notch filter with cascaded lattice structure on one hand and harmonic suppressor with comb filter on the other hand have been compared here for identification of coding regions of C-elegan F56F11.4a chromosome. The authors have analyzed the performance in terms of standard deviation and signal-to-noise ratio. A Matlab simulink environment has been used for filter realization and performance analysis.

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不同结构IIR抗陷波滤波器在基因预测中的性能分析与仿真

基因预测是基因组学研究中的一个重要课题。各种各样的技术被用来鉴定基因中的蛋白质编码区。傅里叶技术的应用是目前最流行的基因预测方法之一，其预测算法是基于DNA的周期-3特性，在编码区出现一个突出的峰。傅里叶方法的频谱估计会产生各种各样的谐波，一般称为1/f噪声，并伴有尖峰，可能导致编码区域的错误预测。研究人员使用各种参数和非参数滤波器来解决这个问题，提高预测的准确性。本文比较了级联晶格结构的抗陷波滤波器和梳状滤波器的谐波抑制器在C-elegan F56F11.4a染色体编码区的识别性能。从标准偏差和信噪比两个方面分析了该算法的性能。在Matlab simulink环境下进行了滤波器的实现和性能分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2012 5th International Conference on Computers and Devices for Communication (CODEC)

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