Your search keyword '"N. Sathish"' showing total 5 results

1. Hybrid ICHO-HSDC Model For Accurate Covid-19 Detection and Classification From CT Scan And X-Ray Images.

Author

Alekhya, Badi, Sasikumar, R., Kuma, N. Sathish, and Bharathiraja, N.

Subjects

X-ray imaging, COMPUTED tomography, CONVOLUTIONAL neural networks, FEATURE extraction, MEDICAL personnel, X-rays, X-ray scattering

Abstract

The worldwide demand for medical care has increased due to the increasing expansion of Covid-19 cases. Therefore, in this case, prompt and precise identification of this illness is crucial. Health professionals are using additional screening techniques including CT imaging as well as chest Xrays for this. Pre-processing the CT scan pictures to eliminate the areas of areas, normalize image contrast, and minimize image noise, however, receives little attention. The seriousness of the Covid19 infection must be assessed in addition to the Covid-19 detection and categorization. An ICHOHYBRID model for Covid-19 identification and classification from X-ray, as well as CT scan images, is offered as a solution to these issues. Histogram and morphological image processing methods are used for CT-scan images. The Improved Chicken Swarm Optimization (ICHO) technique is used to find the input image’s histogram threshold. The extracted areas are categorized using the Convolutional Neural Network method based on a feature vector. When infections are found, the CNN algorithm is used to categorize them as severe, moderate, or extremely severe using Support Vector Machine. To eliminate the noise from the test pictures for X-ray imaging, the Adapted Anisotropic Diffusion Filtering (A2DF) approach is used. Once the preprocessing is completed, features are extracted using an Image profile (IP) and Histogram-oriented gradient (HOG) to create a fused HOG and IP feature. Using the HYBRID method, the FHI characteristics are divided into 3 classes. When compared to SVM and CNN, the study provides the best accuracy, with scores of 94.6 for CT scan pictures and 95.6 for X-ray images. [ABSTRACT FROM AUTHOR]

Published

2023

2. Recent advances in the ergonomic risk assessment of small-scale industry workers

Author

Vigneswaran, Chidambaram, Mohan, G. Madhan, Fernando, Jonathan Cecil, Kumar, N. Sathish, and Shishanth, R.

Abstract

Industrial workers' work-related musculoskeletal disorders (WMSD) cause muscle, tendon, and nerve injury. These injuries affect the health of the industrial worker. These injuries have an impact on the health of the industrial worker. The risk of WMSD in the workplace must be investigated and minimised. The risk level of WMSD is investigated using ergonomic risk assessment tools. The objective of this study is to observe recent advancements in the ergonomic risk assessment of industry workers between 2007 and 2022. The literature was collected from standard ergonomic publications by searching abstracts and titles for keywords such as 'ergonomic risk assessment methods', 'ergonomic evaluation', 'ergonomic intervention', and 'musculoskeletal disorders (MSD) '. Over the last 15 years, recent developments in the ergonomic risk assessment of industry workers have been reviewed. Each risk assessment tool described above is essential in determining the risk of MSD among employees.

Published

2023

3. Geographic and Within Tree Variation for Wood Properties in Acrocarpus fraxinifolius Wight and Arn. Populations.

Author

M. N., Ashwath, B. N., Sathish, N. L., Deepthi Dechamma, G. M., Devagiri, R. K., Hegde, and T. S., Hareesh

Published

2021

4. A Survey and Analysis of Pixel Level Multisensor Medical Image Fusion using Discrete Wavelet Transform

Author

Kumar, N Sathish and Shanthi, C

Abstract

Medical image fusion has become an active research topic due to advances in sensor technology, microelectronics, processing techniques that combine information from different sensors into a single composite image for analysis, interrelation and better clinical diagnosis in much rapid and accurate way. The main objective of medical image fusion using wavelets is to create new image by regrouping the complementary information of multi sensor output.Various medical imaging modalities such as X-ray, Ultrasonics, Computed tomography (CT) magnetic Resonance Imaging (MRI), Positron Emission Tomography (PET), Single Photon Emission tomography (SPECT). This work presents the survey of existing fusion schemes and a novel approach of medical image fusion using Discrete wavelet transform (DWT). The challenge is thus to fuse multi sensor medical images with spectral aspects of low resolution and spatial aspects of a high-resolution image, with out introducing artifacts. In this research multilayer data sets are also tested apart from CT & MRI images. The DWT is applied independently to obtain a set of approximation coefficients, horizontal coefficients, vertical coefficients, and diagonal coefficients for two images. The different independent bands are fused to get the combined output. By applying the Inverse Discrete wavelet transform (IDWT)the fused image is reconstructed. The simulation of fused image when consulted with radiologist and physician, proved better clarity and have high information compared to the first two sensor images. Hence the clinical diagnosis is much faster and accurate.

Published

2007

5. Handbook of Cardiovascular Cell Transplantation

Author

Babu, N. Sathish

Published

2005