Abstract

In this study, we present a medical image stego hiding scheme using a nuclear spin generator system. Detailed theoretical and experimental analysis is provided on the proposed algorithm using histogram analysis, peak signal-to-noise ratio, key space calculation, and statistical package analysis. The provided results show good performance of the brand new medical image steganographic scheme.

Highlights

  • In this century, with the rapid evolution of data processing and information technologies, web security instruments are becoming more and more relevant

  • Many technologies have been introduced in recent years for secure storage and transmission of medical records and information regarding patient identity, such as digital watermarking [3,4], image encryption [5,6,7,8,9], and steganography [10,11]

  • We examine the proposed method, and the data show that it has excellent peak signal-to-noise ratio, strong collision resistance, and desirable security properties that can withstand most common theoretical and statistical attacks

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Summary

Introduction

With the rapid evolution of data processing and information technologies, web security instruments are becoming more and more relevant. Many technologies have been introduced in recent years for secure storage and transmission of medical records and information regarding patient identity, such as digital watermarking [3,4], image encryption [5,6,7,8,9], and steganography [10,11]. Most of those schemes depend on some form of cryptography.

Pseudorandom Byte Output Algorithm Using Nuclear Spin Generator
Proposed Pseudorandom Byte Output Algorithm
Key Size Analysis
Statistical Tests
Embedding Scheme
Extraction Scheme
Steganographic Analysis
Conclusions
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