Image Encryption Using Chaos Theory

+91-7667918914 iarjset@gmail.com 0 Items International Advanced Research Journal in Science, Engineering and Technology A Monthly Peer-Reviewed Multidisciplinary Journal ISSN Online 2393-8021 ISSN Print 2394-1588 Since 2014 Home About About IARJSET Aims and Scope Editorial Board Editorial Policies Publication Ethics Publication Policies Indexing and Abstracting Citation Index License Information Authors How can I publish my paper? Instructions to Authors Benefits to Authors Why Publish in IARJSET Call for Papers Check my Paper status Publication Fee Details Publication Fee Mode FAQs Author Testimonials Reviewers Topics Peer Review Current Issue & Archives Indexing FAQ’s Contact Select Page CETE-IARJSET 11 Abstract: Encryption basically follow two different approaches, the first being encrypting the images through encryption algorithms using keys, the other approach involves dividing the image into random shares to maintain the images secrecy. Chaotic encryption of images is the better approach for cryptography. The chaotic encryption algorithms have several advantages over the traditional encryption algorithms like high security, speed, sensible computational overheads and computational power. The Chaos theory that aims to disadvantage of existing algorithm In recent years, a large type of cryptanalytic algorithms supported chaos are argue and most of them are verified to achieve success by adopting the normal permutation-diffusion design. However, one downside these strategies largely hold is that they need very little reference to the plaintext or, to be precise, the link between them is quite less. The downside makes the encoding algorithms prone to the known-plaintext and chosen-plaintext attack. In addition, the secret keys are unit stationary at the most times, and that they can't be elite dynamically by the corresponding plain image pixels. So as to beat these disadvantages mentioned higher than, we have a tendency to introduce a new chaos-based image encoding rule with dynamic key choice mechanisms. During this we have a tendency to gift a dynamic keystream sequence cluster choice mechanism (DKSGSM) and a dynamic keystream choice mechanism (DKSM). They powerfully enhance the connection between the plaintext and also the encryption scheme. Especially, the DKSGSM and DKSM expand the choice vary of the keys and permit us to pick out the keys dynamically by the corresponding plaintext pixels. What's a lot of, by adopting the bidirectional encryption, we are able to unfold the influence to the complete image once a little modification in plain image and this could greatly increase the protection level of our encryption technique. keywords: Dynamic keystream sequence group selection mechanism(DKSGSM),Dynamic keystream selection mechanism(DKSM),ImageEncryption,Chaos,Permutatio, Diffusion. Call for Papers Rapid Publication 24/7 April 2026 Submission: eMail paper now Notification: Immediate Publication: Immediately with eCertificates Frequency: Monthly Downloads Paper Format Copyright Form   Submit to iarjset@gmail.com or editor@iarjset.com   Submit My Paper Author CenterHow can I publish my paper? Publication Fee Why Publish in IARJSET Benefits to Authors Guidelines to Authors FAQs (Frequently Asked Questions) Author Testimonials IARJSET ManagementAims and Scope Call for Papers Editorial Board DOI and Crossref Publication Ethics Editorial Policies Publication Policies Subscription / Librarian Conference Special Issue Info ArchivesCurrent Issue & Archives Conference Special Issue Copyright © 2026 IARJSET This work is licensed under a Creative Commons Attribution 4.0 International License. Open chat