Applied cryptography (2nd ed.): protocols, algorithms, and source code in C
Applied cryptography (2nd ed.): protocols, algorithms, and source code in C
Cryptography and network security (2nd ed.): principles and practice
Cryptography and network security (2nd ed.): principles and practice
Cryptography: Theory and Practice,Second Edition
Cryptography: Theory and Practice,Second Edition
Handbook of Applied Cryptography
Handbook of Applied Cryptography
A fully pipelined memoryless 17.8 Gbps AES-128 encryptor
FPGA '03 Proceedings of the 2003 ACM/SIGDA eleventh international symposium on Field programmable gate arrays
CT-RSA 2001 Proceedings of the 2001 Conference on Topics in Cryptology: The Cryptographer's Track at RSA
Rijndael FPGA Implementations Utilising Look-Up Tables
Journal of VLSI Signal Processing Systems
SCAN-Based Compression-Encryption-Hiding for Video on Demand
IEEE MultiMedia
A 21.54 Gbits/s Fully Pipelined AES Processor on FPGA
FCCM '04 Proceedings of the 12th Annual IEEE Symposium on Field-Programmable Custom Computing Machines
Future Generation Computer Systems
| Hi-index | 0.00 |
In this paper, we propose a new modified version of Advanced Encryption Standard (AES) using chaotic key generator for satellite imagery security. We analyze and examine the Modified AES and chaotic key generator to enhance the key space and sensitivity, performance, and security level for reducing the risk of different attacks. The chaotic key generator utilizes multiple chaotic maps named as Logistic, Henon, Tent, Cubic, Sine and Chebyshev. The proposed algorithm presents numerous interesting and attractive features, such as a high level of security, large enough key-space with improved key sensitivity, pixel distributing uniformity and an acceptable encryption and decryption speed. The presented algorithm is ideal for real-time applications to deal with redundant, bulky, complex and stubborn satellite imagery.