Prime Factor Random Shuffle Encryption & Decryption (Pfrse/D) Algorithm Based Bio-Medical Image Communications in The IoT for Smart Healthcare Applications Krishnamoorthy Raja1, Reddy A. S.2, Kalaivaani P. T.3 1Professor, CMR Engineering College, Department of ECE, kandlakoya Villaga, Hyderabad, Telangana, India 2Principal, CMR Engineering College, Department of ECE, kandlakoya Villaga, Hyderabad, Telangana, India 3Associate Professor, Department of ECE, Vivekanandha College of Technology for Women, Tiruchengode, Namakkal, Tamilnadu, India Online published on 2 February, 2019. Abstract Objective This paper is to minimize difficulties in medical image transmission over IOT due to the variation of Medical data across the patient population. To provide an effective and intuitive understanding of unique identification of users information; computational performance, reliability, and Flexibility of the system and efficient analysis of large datasets in real time. Analysis This paper is used to analyze the proposed PFRSE/D algorithm based image communication methods and compare the performance of secured PFRSE/D with conventional scheme. Method The Proposed PFRSE/D Algorithm based system offers two layers of protection, simultaneous encryption and watermarking, which address all issues related to security, privacy, and digital rights management. Then the results demonstrate that the new PFRSE/D technique outperforms JPEG in terms of compression quality and compressed file size while providing increased image quality. To design a novel PFRSE/D compression technique that facilitates real-time, high-quality, and low-size imaging. This is a novel use to address the numerous privacy and security issues associated with transmission of biomedical images over the IoT. Findings The finding showed that, results examination aftereffect of reversible information accuracy of 98.9% various techniques and it takes 16ms using the proposed strategy has delivered a more significant number of information reversible precision than different approach. Result This proposed work emphasizes and conveys better precision in regards to acknowledgment from the images when contrasted and other conventional procedures. The results are integrated with PFRSE/D compression, thus forming an integral system, optimized for security and trust with minimal energy consumption which has superior performance of its suitability for next-generation IoT applications. Top Keywords Prime Factor Random Shuffle Encryption & Decryption (PFRSE/D), Biomedical Image. Top |