A Secure Lossless Image Compression Based on Discrete Spatial Multilayer Perceptron with Semantic Polynomial Blue Fish Algorithm
A Secure Lossless Image Compression Based on Discrete Spatial Multilayer Perceptron with Semantic Polynomial Blue Fish Algorithm |
||
 |
 |
|
| © 2022 by IJETT Journal | ||
| Volume-70 Issue-3 |
||
| Year of Publication : 2022 | ||
| Authors : P. Renukadevi, M. Syed Mohamed |
||
| https://doi.org/10.14445/22315381/IJETT-V70I3P224 | ||
How to Cite?
P. Renukadevi, M. Syed Mohamed, "A Secure Lossless Image Compression Based on Discrete Spatial Multilayer Perceptron with Semantic Polynomial Blue Fish Algorithm," International Journal of Engineering Trends and Technology, vol. 70, no. 3, pp. 212-221, 2022. Crossref, https://doi.org/10.14445/22315381/IJETT-V70I3P224
Abstract
Digital medical imaging has been a valuable platform in health centres to encourage decision-making and treatment. The medical image occupies huge memory sizes, and the scale continues to increase because of medical image technology trends. Telemedicine technology allows physicians to exchange the patient picture to facilitate the exchange of information for the diagnosis and analysis of the image. With zero loss of detail, the health system must ensure the rapid and safe distribution of the medical image correctly. The compression of images is useful to ensure that these data are shared. In storage and transmission, the function of compression is unavoidable. The discrete spatial multilayer perceptron based image compression is proposed in this work for the compression of retinal fundal medical images. The input images are preprocessed by the weighted adaptive median filter, and the histogram of the image can get equalized by the laplacian partial differential equation. Then the enhanced image pixels are scanned and subjected to a symbol coding approximation process. The approximated coefficients are subjected to quantization and encoded by spatial domain transformation. Then the compressed image can be securely stored in a cloud environment by using the Semantic polynomial blue fish algorithm. All the experimental simulations are obtained in the Python environment. The obtained results illustrated that the suggested algorithm has good performance in imperceptibility, security, efficiency and capacity.
Keywords
Digital medical fundal images, Discrete spatial multilayer perceptron, Laplacian partial differential equation, Semantic polynomial blue fish algorithm, Weighted adaptive median filter.
Reference
[1] S. Umamaheswari And V. Srinivasa Raghavan, Lossless Medical Image Compression Algorithm Using Tetrolet Transformation, Journal of Ambient Intelligence and Humanized Computing. 12(2) (2021) 4127-4135.
[2] Worku Jifara, Feng Jiang, Bing Zhang, Huapeng Wang, Jinsong Li, Aleksei Grigorev & Shaohui Liu, Hyperspectral Image Compression Based on Online Learning Spectral Features Dictionary, Multimedia Tools and Applications. 76(23) (2017) 25003-25014.
[3] Hao Zhang, Xiao-Qing Wang, Yu-Jie Sun, Xing-Yuan Wang, A Novel Method for Lossless Image Compression and Encryption Based on LWT, Spiht and Cellular Automata, Signal Processing: Image Communication. 84 (2020) 115829.
[4] R. Gupta, P. Kanungo, and N. Dagdee, Hd-Maabe: Hierarchical Distributed Multi-Authority Attribute-Based Encryption for Enabling Open Access to Shared Organizational Data, In Proceedings of ICSC. 2019 (2020) 183-193.
[5] Jayakumar J, Karagiannidis G, Ma M, Hossain S, (Eds) Advances in Communication Systems and Networks, Lecture Notes in Electrical Engineering, Springer. 656 (2020) 571-575.
[6] M. Rasori, P. Perazzo, and G. Dini, A Lightweight and Scalable Attribute-Based Encryption System for Smart Cities, Computer Communications. 149 (2020) 78-89.
[7] N. Deepa and P. Pandiaraja, E Health Care Data Privacy-Preserving Efficient File Retrieval from the Cloud Service Provider Using Attribute-Based File Encryption, Journal of Ambient Intelligence and Humanized Computing. 12 (2020) 1-11.
[8] C. Lei, H. Dai, Z. Yu, And R. Li, A Service Recommendation Algorithm with the Transfer Learning-Based Matrix Factorization to Improve Cloud Security, Information Sciences. 513 (2020) 98-111.
[9] M. A. Ferrag, L. Maglaras, S. Moschoyiannis, and H. Janicke, Deep Learning for Cyber Security Intrusion Detection: Approaches, Datasets, and Comparative Study, Journal of Information Security and Applications. 50 (2020) 102419.
[10] T. D. Devi, A. Subramani, and P. Anitha, Modified Adaptive Neuro-Fuzzy Inference System Based Load Balancing for the Virtual Machine with Security in the Cloud Computing Environment, Journal of Ambient Intelligence and Humanized Computing.12 (2020) 3869–3876.
[11] P. Ghosh, S. Biswas, S. Shakti, and S. Phadikar, An Improved Intrusion Detection System to Preserve Security in Cloud Environment, International Journal of Information Security and Privacy. 14(1) (2020) 67-80.
[12] S. Kadam and V. R. Rathod, Medical Image Compression Using Wavelet-Based Fractal Quadtree Combined with Huffman Coding, In Third International Congress on Information and Communication Technology. (2019) 929-936.
[13] R. Shivhare, R. Shrivastava, and C. Gupta, An Enhanced Image Encryption Technique Using Des Algorithm with Random Image were Overlapping and Random Key Generation, In 2018 International Conference on Advanced Computation and Telecommunication (Icacat). (2018) 1-9.
[14] V. Rao, N. Sandeep, A. R. Rao, and N. Niharika, FPGA Implementation of Digital Data Using RSA Algorithm, Journal of Innovation in Electronics and Communication Engineerin. 9(1) (2019) 34-37.
[15] X. Dong, D. A. Randolph, and S. K. Rajanna Enabling Privacy-Preserving Record Linkage Systems Using Asymmetric Key Cryptography, In Amia Annual Symposium Proceedings. (2019) 380.
[16] M.Pavithra, Enhanced Image Compression System, IJETT International Journal of Mobile Computing and Application. 6(3) (2019) 1-7.
[17] S.Kanike, T V K Hanumantha Rao, A Neural Network-Based Interframe Prediction for HEVC. International Journal of Engineering Trends and Technology. 70(1) (2022) 199-203.