Implementation of RSA Cryptosystem for Next Generation RFID Tags

Implementation of RSA Cryptosystem for Next Generation RFID Tags

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This thesis addresses concepts of implementing a RSA cryptosystem on a passive RFID tag. With a limited number of public key cryptosystems on passive RFID platforms, the proposed algorithm makes use of Montgomery multiplication primitives to reduce the amount of computation required on the power co...

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Bibliographic Details
Main Author: Dighe, Ashish Arun
Language:en
Published: 2011
Subjects:
RFID
Montgomery Multiplication
RSA
Online Access:http://hdl.handle.net/10393/19856
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record_format oai_dc
spelling ndltd-LACETR-oai-collectionscanada.gc.ca-OOU.#10393-198562014-06-14T03:49:21ZImplementation of RSA Cryptosystem for Next Generation RFID TagsDighe, Ashish ArunRFIDMontgomery MultiplicationRSAThis thesis addresses concepts of implementing a RSA cryptosystem on a passive RFID tag. With a limited number of public key cryptosystems on passive RFID platforms, the proposed algorithm makes use of Montgomery multiplication primitives to reduce the amount of computation required on the power constrained tag therefore making the proposition viable. Public key cryptography is being suggested for next generation RFID systems to reduce the number of possible attack vectors native to this type of technology. By estimating the area, power and time constraints of the RFID platform, it was determined that the area constraint was the critical variable in determining the maximum implementable security variable. Although the application of this algorithm has been targeted for passive HF RFID platforms, the algorithm could be used in other low power, sized constrained applications.2011-03-29T19:37:07Z2011-03-29T19:37:07Z20112011-03-29Thèse / Thesishttp://hdl.handle.net/10393/19856en
collection NDLTD
language en
sources NDLTD
topic RFID
Montgomery Multiplication
RSA
spellingShingle RFID
Montgomery Multiplication
RSA
Dighe, Ashish Arun
Implementation of RSA Cryptosystem for Next Generation RFID Tags
description This thesis addresses concepts of implementing a RSA cryptosystem on a passive RFID tag. With a limited number of public key cryptosystems on passive RFID platforms, the proposed algorithm makes use of Montgomery multiplication primitives to reduce the amount of computation required on the power constrained tag therefore making the proposition viable. Public key cryptography is being suggested for next generation RFID systems to reduce the number of possible attack vectors native to this type of technology. By estimating the area, power and time constraints of the RFID platform, it was determined that the area constraint was the critical variable in determining the maximum implementable security variable. Although the application of this algorithm has been targeted for passive HF RFID platforms, the algorithm could be used in other low power, sized constrained applications.
author Dighe, Ashish Arun
author_facet Dighe, Ashish Arun
author_sort Dighe, Ashish Arun
title Implementation of RSA Cryptosystem for Next Generation RFID Tags
title_short Implementation of RSA Cryptosystem for Next Generation RFID Tags
title_full Implementation of RSA Cryptosystem for Next Generation RFID Tags
title_fullStr Implementation of RSA Cryptosystem for Next Generation RFID Tags
title_full_unstemmed Implementation of RSA Cryptosystem for Next Generation RFID Tags
title_sort implementation of rsa cryptosystem for next generation rfid tags
publishDate 2011
url http://hdl.handle.net/10393/19856
work_keys_str_mv AT digheashisharun implementationofrsacryptosystemfornextgenerationrfidtags
_version_ 1716669236464582656

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