A Residual Chaotic System for Image Security and Digital Video Watermarking

Project Code :TMPGAI106

Objective

Here a general Residual Chaotic System (RCS) for image security in heterogeneous multimedia is implemented

Abstract

Multimedia data security has become a noticeable problem in the continuous development of multimedia technology. Traditional chaotic systems usually require larger bit-width iterative calculations to affect the generation rate of chaotic systems when generating. To solve this problem, we proposed a general Residual Chaotic System (RCS) for image security in heterogeneous multimedia signal processing environments.

Based on the Residue Number System (RNS) commonly used in VLSI, we generate the general chaotic sequences by iterating unary polynomial function through it in Galois Field (GF). Moreover, we make use of the Box-Muller algorithm to generate RCS, which improved the speed of operation by a large margin when doing R/B backward transformation.

Experiments show that the key sensitivity and plaintext sensitivity of the proposed encryption system are good, and the system can encrypt pictures efficiently and safely. Then, we proposed a watermark embedding and extraction algorithm with block selection. Based on the proposed new judgment conditions, the 4×4 brightness blocks are divided into five categories, then the appropriate types of blocks are selected accordingly.

After testing the performance indexes of cypher-text images, including statistical and sensitivity-related tests, all results indicate that our algorithm has good randomness and security. The invisibility is good, the watermark capacity has been significantly improved, and the video bit-rate growth rate is in a good range.

Keywords: Image encryption, residue number system (RNS), residual chaotic system (RCS), block selection, video watermark

NOTE: Without the concern of our team, please don't submit to the college. This Abstract varies based on student requirements.

Block Diagram

Specifications

Software: Matlab 2020a or above

Hardware:

Operating Systems:

Windows 10
Windows 7 Service Pack 1
Windows Server 2019
Windows Server 2016

Processors:

Minimum: Any Intel or AMD x86-64 processor

Recommended: Any Intel or AMD x86-64 processor with four logical cores and AVX2 instruction set support

Disk:

Minimum: 2.9 GB of HDD space for MATLAB only, 5-8 GB for a typical installation

Recommended: An SSD is recommended A full installation of all MathWorks products may take up to 29 GB of disk space

RAM:

Minimum: 4 GB

Recommended: 8 GB

Learning Outcomes

Introduction to Matlab
What is EISPACK & LINPACK
How to start with MATLAB
About Matlab language
Matlab coding skills
About tools & libraries
Application Program Interface in Matlab
About Matlab desktop
How to use Matlab editor to create M-Files
Features of Matlab
Basics on Matlab
What is an Image/pixel?
About image formats
Introduction to Image Processing
How digital image is formed
Importing the image via image acquisition tools
Analyzing and manipulation of image.
Phases of image processing:

Acquisition
Image enhancement
Image restoration
Color image processing
Image compression
Morphological processing
Segmentation etc.,

About Artificial Intelligence (AI)
About Machine Learning
About Deep Learning
About layers in AI (input, hidden and output layers)
Building AI (ANN/CNN) architecture using Matlab
We will able to know, what’s the term “Training” means in Artificial Intelligence
About requirements that can influence the AI training process: