Evolution of Knapsack Ciphersystems
The knapsack problem is known to be used in numerous public key ciphersystems designs. These ciphersystems have been receiving increased attention from analytics, resulting in many being compromised. Therefore, modern systems incorporate new algorithms making them at least partially immune to known...
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Moscow Engineering Physics Institute
2015-03-01
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| Series: | Bezopasnostʹ Informacionnyh Tehnologij |
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| Online Access: | https://bit.mephi.ru/index.php/bit/article/view/200 |
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doaj-f9f41e2ca6664c2f855618ed8711690e2020-11-25T02:29:54ZengMoscow Engineering Physics Institute Bezopasnostʹ Informacionnyh Tehnologij2074-71282074-71362015-03-01221200Evolution of Knapsack CiphersystemsGeorgii Ivanovich Borzunov0Mikhail Andreevich Kupriyashin1National Research Nuclear University MEPhINational Research Nuclear University MEPhIThe knapsack problem is known to be used in numerous public key ciphersystems designs. These ciphersystems have been receiving increased attention from analytics, resulting in many being compromised. Therefore, modern systems incorporate new algorithms making them at least partially immune to known attacks. In this paper, three types of knapsack ciphersystems are introduced. The difference between types is how the keys are generated and used. Classical systems, being the first type, use superincreasing sequences and low-density knapsacks and are therefore vulnerable. Modern cryptosystems are based on high-density knapsacks. That makes them difficult to analyze. Hybrid cryptosystems incorporate several security mechanisms (not only trapdoor knapsacks) that makes analysis, as well as implementation, even more complicated.https://bit.mephi.ru/index.php/bit/article/view/200knapsack problemknapsack ciphersystems |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Georgii Ivanovich Borzunov Mikhail Andreevich Kupriyashin |
| spellingShingle |
Georgii Ivanovich Borzunov Mikhail Andreevich Kupriyashin Evolution of Knapsack Ciphersystems Bezopasnostʹ Informacionnyh Tehnologij knapsack problem knapsack ciphersystems |
| author_facet |
Georgii Ivanovich Borzunov Mikhail Andreevich Kupriyashin |
| author_sort |
Georgii Ivanovich Borzunov |
| title |
Evolution of Knapsack Ciphersystems |
| title_short |
Evolution of Knapsack Ciphersystems |
| title_full |
Evolution of Knapsack Ciphersystems |
| title_fullStr |
Evolution of Knapsack Ciphersystems |
| title_full_unstemmed |
Evolution of Knapsack Ciphersystems |
| title_sort |
evolution of knapsack ciphersystems |
| publisher |
Moscow Engineering Physics Institute |
| series |
Bezopasnostʹ Informacionnyh Tehnologij |
| issn |
2074-7128 2074-7136 |
| publishDate |
2015-03-01 |
| description |
The knapsack problem is known to be used in numerous public key ciphersystems designs. These ciphersystems have been receiving increased attention from analytics, resulting in many being compromised. Therefore, modern systems incorporate new algorithms making them at least partially immune to known attacks. In this paper, three types of knapsack ciphersystems are introduced. The difference between types is how the keys are generated and used. Classical systems, being the first type, use superincreasing sequences and low-density knapsacks and are therefore vulnerable. Modern cryptosystems are based on high-density knapsacks. That makes them difficult to analyze. Hybrid cryptosystems incorporate several security mechanisms (not only trapdoor knapsacks) that makes analysis, as well as implementation, even more complicated. |
| topic |
knapsack problem knapsack ciphersystems |
| url |
https://bit.mephi.ru/index.php/bit/article/view/200 |
| work_keys_str_mv |
AT georgiiivanovichborzunov evolutionofknapsackciphersystems AT mikhailandreevichkupriyashin evolutionofknapsackciphersystems |
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