The IRMA Community
Newsletters
Research IRM
Click a keyword to search titles using our InfoSci-OnDemand powered search:
|
A Blockchain-Based Cryptographic Framework for Secure, Private, and Traceable Digital Art Copyright Management
Abstract
Digital art growth brings copyright challenges: slow verification, tampering risks, and privacy leaks. This study proposes a blockchain-based cryptographic framework for secure, private, and traceable management. The layered design uses AES for content encryption, ECC for key security, and blockchain for immutable metadata storage, ensuring integrity and authenticity. Smart contracts enable automated access control with pseudonymized identities to protect user privacy. Tested on 2D, 3D, and dynamic artworks, the system outperforms traditional DRM: verification latency drops over 50%, tamper detection exceeds 95%, and CPU/memory usage stays low. It supports scalable, real-time operations and provides an auditable, trust-aware environment for content lifecycle management. Though interoperability and new formats remain challenges, the framework meets technical, organizational, and regulatory needs in information security. This work advances integrated, privacy-preserving solutions for sustainable digital rights ecosystems.
Related Content
|
Jiang Lv, Jiuru Lin.
© 2026.
16 pages.
|
|
Yunfei Li, Xiaodong Fu, Li Liu, Jiaman Ding, Wei Peng, Lianyin Jia.
© 2026.
40 pages.
|
|
Mahdi Ajdani.
© 2026.
19 pages.
|
|
Ibidun Christiana Obagbuwa, Madison N. Ngafeeson, Oluwatimileyin Favour Obagbuwa, Anthony Tsetse.
© 2026.
22 pages.
|
|
Xiang Gong, Qiaoqiao Wang, Guojie Li, Dehan Kong.
© 2026.
23 pages.
|
|
Jason A. Williams, Humayun Zafar, Saurabh Gupta.
© 2026.
18 pages.
|
|
Xudong Shao, Bo Yang, Zhijie Fan, Deyang Qu, Weichao Hu, Shijun Xu.
© 2026.
29 pages.
|
|
|