Investigation of Fault Propagation in Encryption of Satellite Images Using the AES Algorithm
Banu,Roohi
Surrey Space Centre, university of Surrey, UK
Vladimirova,Tanya
Surrey Space Centre, University of Surrey, UK
The demand to protect the sensitive and valuable data transmitted from satellites to ground has increased and hence the need to use encryption on-board. The Advanced Encryption Standard (AES), which is a very popular choice in terrestrial communications, is slowly emerging as the preferred option in the aerospace industry including satellites. AES is a block cipher, which encrypts one block of fixed length data at a time. Several modes of operation have been defined to encrypt multiple blocks of data. This paper addresses the encryption of satellite imaging data using the five AES modes - ECB, CBC, CFB, OFB and CTR. This paper describes the sources of faults and estimates the amount of damage caused to the data.
The encrypted satellite data can get corrupted before reaching the ground station due to various faults. One major source of faults is the harsh radiation environment. Single Even Upset (SEU) faults can occur on-board during encryption due to radiation. A detailed analysis of the effect of SEUs on the imaging data during on-board encryption using the modes of AES is carried out. Faults in the data can also occur during transmission to the ground station due to noisy transmission channels. In this paper the impact of these faults on the data is discussed and compared for all the five modes of AES.
Author Name: Mrs. Roohi Banu
Roohi Banu received B.Tech degree from S.V. University in 1997 and M.Tech degree from IIT Chennai in 2000. At present she is working towards her PhD at Surrey Space Centre, University of Surrey, UK. Prior to joining her PhD she worked as a Design Engineer at Motorola where she was involved in System-On-Chip (SOC) ASIC and FPGA design. Her research interests include SOC, low power and high-speed design techniques, encryption and fault tolerant computing.