Inhaltsangabe
This thesis describes implementation of an Advanced Encryption Standard (AES) Smart Card, a highly tamper resistant to Side Channel Attacks. Smart Cards are gaining popularity in applications that require high security and store sensitive information. Modern smart Cards, highly capable of complicated cryptography, provide a high assurance of tamper resistance and thus commonly used in payment application. However, advanced Smart Cards can not protect attackers from being defrauded by different side channel attacks (DSCA). Small, embedded integrated circuits (ICs) such as smart cards are vulnerable to side channel Attacks (SCAs) The development of such attacks describes how to perform different kinds of side channel Attack on an AES implementation by using simulated power traces. Working in a simulated environment brings relevant advantages,e.g., eventual weakness to Differential power Attack(DPA) may be detected at device designing phase,so that satisfactory countermeasures can be adopted before the physical realization. The security prevention from such corresponding attacks is a randomized masking technique for implementing in software and hardware,which has been discussed here
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Über die Autorin bzw. den Autor
Mohammad Akram Hossain is serving as Executive Officer at Dutch-Bangla Bank Ltd in IT division. A.K.M. Zaidi Satter has been serving in the Faculty of Business & Economics at Daffodil Int'l University(DIU) since 2006.He has 2 research articles. Md. Shibli Shahriar has been serving at DIU since 2002. He got 9 research monographs & 6 papers published
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Taschenbuch. Zustand: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -This thesis describes implementation of an Advanced Encryption Standard (AES) Smart Card, a highly tamper resistant to Side Channel Attacks. Smart Cards are gaining popularity in applications that require high security and store sensitive information. Modern smart Cards, highly capable of complicated cryptography, provide a high assurance of tamper resistance and thus commonly used in payment application. However, advanced Smart Cards can not protect attackers from being defrauded by different side channel attacks (DSCA). Small, embedded integrated circuits (ICs) such as smart cards are vulnerable to side channel Attacks (SCAs) The development of such attacks describes how to perform different kinds of side channel Attack on an AES implementation by using simulated power traces. Working in a simulated environment brings relevant advantages,e.g., eventual weakness to Differential power Attack(DPA) may be detected at device designing phase,so that satisfactory countermeasures can be adopted before the physical realization. The security prevention from such corresponding attacks is a randomized masking technique for implementing in software and hardware,which has been discussed here 104 pp. Englisch. Bestandsnummer des Verkäufers 9783847349143
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Side Channel Attack Prevention
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LAP Lambert Academic Publishing Sep 2015, 2015
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ISBN 13: 9783847349143
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Taschenbuch. Zustand: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -This thesis describes implementation of an Advanced Encryption Standard (AES) Smart Card, a highly tamper resistant to Side Channel Attacks. Smart Cards are gaining popularity in applications that require high security and store sensitive information. Modern smart Cards, highly capable of complicated cryptography, provide a high assurance of tamper resistance and thus commonly used in payment application. However, advanced Smart Cards can not protect attackers from being defrauded by different side channel attacks (DSCA). Small, embedded integrated circuits (ICs) such as smart cards are vulnerable to side channel Attacks (SCAs) The development of such attacks describes how to perform different kinds of side channel Attack on an AES implementation by using simulated power traces. Working in a simulated environment brings relevant advantages,e.g., eventual weakness to Differential power Attack(DPA) may be detected at device designing phase,so that satisfactory countermeasures can be adopted before the physical realization. The security prevention from such corresponding attacks is a randomized masking technique for implementing in software and hardware,which has been discussed here 104 pp. Englisch. Bestandsnummer des Verkäufers 9783847349143
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Side Channel Attack Prevention
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LAP Lambert Academic Publishing Sep 2015, 2015
ISBN 10: 3847349147
ISBN 13: 9783847349143
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Taschenbuch. Zustand: Neu. Neuware -This thesis describes implementation of an Advanced Encryption Standard (AES) Smart Card, a highly tamper resistant to Side Channel Attacks. Smart Cards are gaining popularity in applications that require high security and store sensitive information. Modern smart Cards, highly capable of complicated cryptography, provide a high assurance of tamper resistance and thus commonly used in payment application. However, advanced Smart Cards can not protect attackers from being defrauded by different side channel attacks (DSCA). Small, embedded integrated circuits (ICs) such as smart cards are vulnerable to side channel Attacks (SCAs) The development of such attacks describes how to perform different kinds of side channel Attack on an AES implementation by using simulated power traces. Working in a simulated environment brings relevant advantages,e.g., eventual weakness to Differential power Attack(DPA) may be detected at device designing phase,so that satisfactory countermeasures can be adopted before the physical realization. The security prevention from such corresponding attacks is a randomized masking technique for implementing in software and hardware,which has been discussed here. Bestandsnummer des Verkäufers 9783847349143
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