G. Srilekha scite author profile

G. Srilekha

5Publications

2Citation Statements Received

0Citation Statements Given

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Koneru Lakshmaiah Education Foundation

Publications

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Image Enhancement Using Wavelet Based Image Fusion and Power Law Transform

Sujatha

Srilekha

Tina

et al. 2020

j comput theor nanosci

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One of the best branches of data fusion is Image Fusion and Power law transform is having its own importance in image enhancement. The future applications will be mainly based on image brightness and image sharpness. The enhanced images provide better information than the low-quality blur images. In this paper, we acquired a solitary image which introduces better execution under a few assessment criteria’s by combining wavelet transform with power law transformation for the images at around various locales. Wavelet transform is basically utilized as a result of its natural property that is, they are repetitive and move variation. It changes image into various scales. In power law transformation one must pick the example showing up in the transform capacity with the end goal that it doesn’t corrupt the nature of the image. The empirical results are better for proposed algorithm compare with state of art algorithms.

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Recognition of Type of Skin Disease Using CNN

Maniraju¹,

Adithya²,

Srilekha³

2022

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A compact low frequency dual band liquid crystal polymer antenna for VHF and UHF band applications

Srilekha

Pardhasaradhi

Madhav

et al. 2021

Materials Today: Proceedings

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Design of a Quad-Band 6CB Nematic Phase Liquid Crystal Antenna for Commercial Wi-MAX and WLAN Applications

Srilekha¹,

Pardhasaradhi²,

Madhav³

2021

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Identification of thermo optical parameters in 4^l-hexyloxy-4-cyanobyphenyl with dispersed ZnO nano particles

Pardhasaradhi

Madhav

Srilekha

et al. 2021

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In this present article, synthesis, characterization, and study of optical parameters through image enhancement methods have been carried out on 4l-hexyloxy-4-cyanobyphenyl (6OCB) pure liquid crystal (LC) and 6OCB with dispersion of 0.5 wt% ZnO nanoparticles. Textural determinations of the synthesized compounds are recorded by using SDTECHS POM connected with a hot stage and camera. differential scanning calorimetry (DSC) is used to measure enthalpy and transition temperature values. The results show that the dispersion of ZnO in 6OCB exhibits nematic phase as same as the pure 6OCB with slightly reduced clearing temperature as expected. Further characterization is carried out by various spectroscopic techniques like X-ray diffraction (XRD), scanning electron microscopy (SEM), and ultraviolet visible (UV–Vis) spectroscopy. To evaluate and identify the behavior of optical parameters viz optical transmittance (OT), absorption coefficient (AC), and phase retardation (PR) as a function of temperature, an image processing method has been proposed, i.e. illumination enhancement algorithm (IEA) using MATLAB software. The proposed enhancement algorithm is one of the simplest and efficient algorithms to evaluate the thermo optical parameters for various electro optical applications. The results are compared with the body of the data available.

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G. Srilekha

Image Enhancement Using Wavelet Based Image Fusion and Power Law Transform

Recognition of Type of Skin Disease Using CNN

A compact low frequency dual band liquid crystal polymer antenna for VHF and UHF band applications

Design of a Quad-Band 6CB Nematic Phase Liquid Crystal Antenna for Commercial Wi-MAX and WLAN Applications

Identification of thermo optical parameters in 4^l-hexyloxy-4-cyanobyphenyl with dispersed ZnO nano particles

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G. Srilekha

Image Enhancement Using Wavelet Based Image Fusion and Power Law Transform

Recognition of Type of Skin Disease Using CNN

A compact low frequency dual band liquid crystal polymer antenna for VHF and UHF band applications

Design of a Quad-Band 6CB Nematic Phase Liquid Crystal Antenna for Commercial Wi-MAX and WLAN Applications

Identification of thermo optical parameters in 4l-hexyloxy-4-cyanobyphenyl with dispersed ZnO nano particles

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Product

Resources

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Identification of thermo optical parameters in 4^l-hexyloxy-4-cyanobyphenyl with dispersed ZnO nano particles