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| fault detection of the camellia cipher against single byte differential fault analysis | |
| Li Wei; Xia Xiaoling; Wang Yi | |
| 2012 | |
| Source | APPLIED MATHEMATICS & INFORMATION SCIENCES
 |
| ISSN | 1935-0090 |
| Volume | 6Issue:3Pages:951-957 |
| English Abstract | The Camellia is a 128-bit block cipher published by NTT and Mitsubishi in 2000. Since the research of differential fault analysis against Camellia was proposed, much work has been devoted to realizing a more efficient different fault analysis. It is a very strong analysis for ciphers when a single fault is injected into the last several rounds of encryption and the whole secret key could be recovered. Thus, how to detect the faults injected into the Camellia cipher with low overhead of complexity is an open problem. This paper gives an answer to this problem by presenting a fault detection of the Camellia block cipher in the single-byte fault model. Our result in this study could detect the faults with negligible cost when faults are even injected into the last three rounds.; The Camellia is a 128-bit block cipher published by NTT and Mitsubishi in 2000. Since the research of differential fault analysis against Camellia was proposed, much work has been devoted to realizing a more efficient different fault analysis. It is a very strong analysis for ciphers when a single fault is injected into the last several rounds of encryption and the whole secret key could be recovered. Thus, how to detect the faults injected into the Camellia cipher with low overhead of complexity is an open problem. This paper gives an answer to this problem by presenting a fault detection of the Camellia block cipher in the single-byte fault model. Our result in this study could detect the faults with negligible cost when faults are even injected into the last three rounds. |
| Indexed Type | SCI |
| Keyword | Cryptanalysis Fault Detection Camellia |
| Department | Li Wei; Xia Xiaoling Donghua Univ Sch Comp Sci & Technol Shanghai 201620 Peoples R China. Li Wei Shanghai Key Lab Integrate Adm Technol Informat S Shanghai 200240 Peoples R China. Li Wei Chinese Acad Sci State Key Lab Informat Secur Inst Software Beijing 100190 Peoples R China. Wang Yi E China Univ Polit Sci & Law Dept Informat Sci & Technol Shanghai 201601 Peoples R China. |
| Subject | Mathematics ; Physics |
| Sponsorship | National Natural Science Foundation of China 61003278; Shanghai Key Laboratory of Integrate Administration Technologies for Information Security; State Key Laboratory of Information Security; Fundamental Research Funds for the Central Universities |
| Language | 英语 |
| WOS ID | WOS:000311010500031 |
| Citation statistics | |
| Content Type | 期刊论文 |
| URI | http://ir.iscas.ac.cn/handle/311060/15055 |
| Collection | 中国科学院软件研究所 |
| Recommended Citation GB/T 7714 | Li Wei,Xia Xiaoling,Wang Yi. fault detection of the camellia cipher against single byte differential fault analysis[J]. APPLIED MATHEMATICS & INFORMATION SCIENCES,2012,6(3):951-957. |
| APA | Li Wei,Xia Xiaoling,&Wang Yi.(2012).fault detection of the camellia cipher against single byte differential fault analysis.APPLIED MATHEMATICS & INFORMATION SCIENCES,6(3),951-957. |
| MLA | Li Wei,et al."fault detection of the camellia cipher against single byte differential fault analysis".APPLIED MATHEMATICS & INFORMATION SCIENCES 6.3(2012):951-957. |
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