ARCHIVES
Research Article
A Comparative Study of Mean Square Error, Signal to Noise Ratios of Grey Scale Thresholded and Compressed Images Before Performing Edge Detection Method
Abir Chakraborty1
Department of Engineering &Technology, University of Coimbra, Portugal.
Published Online: September-October 2024
Pages: 08-14
Cite this article
↗ https://www.doi.org/10.59256/ijsreat.20240405002
References
1. “Comparison of Signal to Noise Ratio of Colored and Gray Scale Image In Clustered Condition From The Contour Of The Images
With The Help Of Different ImageFiltering Method”- Abir Chakraborty, Volume 9, Issue5 May 2024| Issn: 2456-4184
2. Detection and Comparison of Signal to Noise Ratio’s andOther Dimensions Related Specifications from Contours of Several Images
- A Matlab Syntax Based Applications of Biomedical and General Jpeg Images- Abir Chakraborty, Dr. Somshekhar Bhat, Dr. Kumar
Shama [Volume 10, Issue 9,September-2022, Impact Factor: 7.429, ISSN: 2455-6211]
3. DETECTIONOFSIGNAL TONOISE RATIO FROM IMAGE CONTOUR -AMATLAB APPLICATION [Volume: 06 Issue: 09
September – 2022, ISSN: 2582-3930]
4. APPLICATION OF IMAGE PROCESSING USING MATLAB- A PRACTICAL HANDBOOK FOR IMAGE PROCESSING
LABORATORTY]-ABIR CHAKRABORTY
5. Detection and Comparison of Signal To Noise Ratio’s and Other Dimensions Related Specifications From Contours of Several
Images - A Matlab Syntax Based Applications of Biomedical and General Jpeg Images-[ Abir Chakraborty1, Dr. Somshekhar Bhat2,
Dr. Kumar Shama3, 1,2,3Manipal Institute of Technology, Mahe , Karanataka, India, Volume 10, Issue 9, September-2022, Impact
Factor: 7.429, ISSN: 2455-6211]
6. Ahmed, S. & Alone, M. R. (2014). Image Compression using NeuralNetwork. International Journal of Innovative Science and Modern
Engineering, 2(5), 24-28.
7. Balasubramani, P., & Murugan, P. R. (2015). Efficient image compression techniques for compressing multimodal medical images
using neural network radial basis function approach. International Journal of Imaging Systems and Technology, 25(2), 115-122.
https://doi.org/10.1002/ima.22127
8. Fukushima, K. (1980). Neocognitron: A self-organizing neuralnetwork model for a mechanism of pattern recognition unaffected by
shift in position. Biological Cybernetics, 36(4), 193-202. https://doi.org/10.1007/ Bf00344251
9. Grgic, S., Grgic, M., & Zovko-Cihlar, B. (2001). Performance analysis of image compression using wavelets. IEEE Transactions on
Industrial Electronics, 48(3), 682-695.https://doi.org/10.1109/41.925596
10. Hussain, A. J., Al-Jumeily, D., Radi, N., & Lisboa, P. (2015). Hybridneural network predictive-wavelet image compression system.
Neurocomputing, 151, 975-984. https://doi.org/10.1016/j.neucom.2014.02.078.
11. Joe, A. R., & Rama, N. (2015). Neural network based image compression for memory consumption in cloud environment. Indian
Journal of Science and Technology, 8(15), 1-6. https://doi.org/10.17485/i jst/2015/ v8i15/73855,
With The Help Of Different ImageFiltering Method”- Abir Chakraborty, Volume 9, Issue5 May 2024| Issn: 2456-4184
2. Detection and Comparison of Signal to Noise Ratio’s andOther Dimensions Related Specifications from Contours of Several Images
- A Matlab Syntax Based Applications of Biomedical and General Jpeg Images- Abir Chakraborty, Dr. Somshekhar Bhat, Dr. Kumar
Shama [Volume 10, Issue 9,September-2022, Impact Factor: 7.429, ISSN: 2455-6211]
3. DETECTIONOFSIGNAL TONOISE RATIO FROM IMAGE CONTOUR -AMATLAB APPLICATION [Volume: 06 Issue: 09
September – 2022, ISSN: 2582-3930]
4. APPLICATION OF IMAGE PROCESSING USING MATLAB- A PRACTICAL HANDBOOK FOR IMAGE PROCESSING
LABORATORTY]-ABIR CHAKRABORTY
5. Detection and Comparison of Signal To Noise Ratio’s and Other Dimensions Related Specifications From Contours of Several
Images - A Matlab Syntax Based Applications of Biomedical and General Jpeg Images-[ Abir Chakraborty1, Dr. Somshekhar Bhat2,
Dr. Kumar Shama3, 1,2,3Manipal Institute of Technology, Mahe , Karanataka, India, Volume 10, Issue 9, September-2022, Impact
Factor: 7.429, ISSN: 2455-6211]
6. Ahmed, S. & Alone, M. R. (2014). Image Compression using NeuralNetwork. International Journal of Innovative Science and Modern
Engineering, 2(5), 24-28.
7. Balasubramani, P., & Murugan, P. R. (2015). Efficient image compression techniques for compressing multimodal medical images
using neural network radial basis function approach. International Journal of Imaging Systems and Technology, 25(2), 115-122.
https://doi.org/10.1002/ima.22127
8. Fukushima, K. (1980). Neocognitron: A self-organizing neuralnetwork model for a mechanism of pattern recognition unaffected by
shift in position. Biological Cybernetics, 36(4), 193-202. https://doi.org/10.1007/ Bf00344251
9. Grgic, S., Grgic, M., & Zovko-Cihlar, B. (2001). Performance analysis of image compression using wavelets. IEEE Transactions on
Industrial Electronics, 48(3), 682-695.https://doi.org/10.1109/41.925596
10. Hussain, A. J., Al-Jumeily, D., Radi, N., & Lisboa, P. (2015). Hybridneural network predictive-wavelet image compression system.
Neurocomputing, 151, 975-984. https://doi.org/10.1016/j.neucom.2014.02.078.
11. Joe, A. R., & Rama, N. (2015). Neural network based image compression for memory consumption in cloud environment. Indian
Journal of Science and Technology, 8(15), 1-6. https://doi.org/10.17485/i jst/2015/ v8i15/73855,
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