Ghader Karimian scite author profile

BackgroundThe identification of protein coding regions (exons) in DNA sequences using signal processing techniques is an important component of bioinformatics and biological signal processing. In this paper, a new method is presented for the identification of exonic regions in DNA sequences. This method is based on the cross-correlation technique that can identify periodic regions in DNA sequences.ResultsThe method reduces the dependency of window length on identification accuracy. The proposed algorithm is applied to different eukaryotic datasets and the output results are compared with those of other established methods. The proposed method increased the accuracy of exon detection by 4% to 41% relative to the most common digital signal processing methods for exon prediction.ConclusionsWe demonstrated that periodic signals can be estimated using cross-correlation. In addition, discrete wavelet transform (DWT) can minimise noise while maintaining the signal. The proposed algorithm, which combines cross-correlation and DWT, significantly increases the accuracy of exonic region identification.

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Automatic navigation and landing of an indoor AR. drone quadrotor using ArUco marker and inertial sensors

Sani

Karimian

2017

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A New Efficient Stereo Line Segment Matching Algorithm Based on More Effective Usage of the Photometric, Geometric and Structural Information

Karimian

Raie

Faez

2006

IEICE Transactions on Information and Systems

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Implementation of neuro-fuzzy system with modified high performance genetic algorithm on embedded systems

Nasrollahzadeh

Karimian

Mehrafsa

2017

Applied Soft Computing

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Ghader Karimian

Forensic discrimination of blue ballpoint pen inks based on thin layer chromatography and image analysis

Identification of exonic regions in DNA sequences using cross-correlation and noise suppression by discrete wavelet transform

Automatic navigation and landing of an indoor AR. drone quadrotor using ArUco marker and inertial sensors

A New Efficient Stereo Line Segment Matching Algorithm Based on More Effective Usage of the Photometric, Geometric and Structural Information

Implementation of neuro-fuzzy system with modified high performance genetic algorithm on embedded systems

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