M-folding method–based elliptic curve cryptosystem for industrial cyber-physical system

Recently, cyber-physical system is widely used for smart system control in various fields. Various functions of the cyber-physical system must overcome the limited hardware resources constraint of an embedded system. In addition, the data required from the industrial cyber-physical system are critic...

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Main Authors: Taehoon Do, Seungwoo Park, Jaehwan Lee, Sangoh Park
Format: Article
Language:English
Published: SAGE Publishing 2019-10-01
Series:International Journal of Distributed Sensor Networks
Online Access:https://doi.org/10.1177/1550147719879045
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spelling doaj-731f61c23bd442bd845b0ef3aff4d39e2020-11-25T03:46:24ZengSAGE PublishingInternational Journal of Distributed Sensor Networks1550-14772019-10-011510.1177/1550147719879045M-folding method–based elliptic curve cryptosystem for industrial cyber-physical systemTaehoon Do0Seungwoo Park1Jaehwan Lee2Sangoh Park3Korea Securities Computer Corporation (KOSCOM), Seoul, KoreaSchool of Computer Science and Engineering, Chung-Ang University, Seoul, KoreaSchool of Computer Science and Engineering, Chung-Ang University, Seoul, KoreaSchool of Computer Science and Engineering, Chung-Ang University, Seoul, KoreaRecently, cyber-physical system is widely used for smart system control in various fields. Various functions of the cyber-physical system must overcome the limited hardware resources constraint of an embedded system. In addition, the data required from the industrial cyber-physical system are critical; therefore, a highly secure encryption technique is required. However, security and computational throughput are incompatible with each other in the cryptographic technique; therefore, the industrial cyber-physical system needs to adopt a highly efficient and secure encryption technique considering the limited available resources. This study applies the m-folding method to the highly secure elliptic curve algorithm to improve efficiency and proposes the cryptosystem optimized for the resource-constrained industrial cyber-physical system. The proposed m-folding method–based elliptic curve encryption showed 50% faster encryption than the existing methods.https://doi.org/10.1177/1550147719879045
collection DOAJ
language English
format Article
sources DOAJ
author Taehoon Do
Seungwoo Park
Jaehwan Lee
Sangoh Park
spellingShingle Taehoon Do
Seungwoo Park
Jaehwan Lee
Sangoh Park
M-folding method–based elliptic curve cryptosystem for industrial cyber-physical system
International Journal of Distributed Sensor Networks
author_facet Taehoon Do
Seungwoo Park
Jaehwan Lee
Sangoh Park
author_sort Taehoon Do
title M-folding method–based elliptic curve cryptosystem for industrial cyber-physical system
title_short M-folding method–based elliptic curve cryptosystem for industrial cyber-physical system
title_full M-folding method–based elliptic curve cryptosystem for industrial cyber-physical system
title_fullStr M-folding method–based elliptic curve cryptosystem for industrial cyber-physical system
title_full_unstemmed M-folding method–based elliptic curve cryptosystem for industrial cyber-physical system
title_sort m-folding method–based elliptic curve cryptosystem for industrial cyber-physical system
publisher SAGE Publishing
series International Journal of Distributed Sensor Networks
issn 1550-1477
publishDate 2019-10-01
description Recently, cyber-physical system is widely used for smart system control in various fields. Various functions of the cyber-physical system must overcome the limited hardware resources constraint of an embedded system. In addition, the data required from the industrial cyber-physical system are critical; therefore, a highly secure encryption technique is required. However, security and computational throughput are incompatible with each other in the cryptographic technique; therefore, the industrial cyber-physical system needs to adopt a highly efficient and secure encryption technique considering the limited available resources. This study applies the m-folding method to the highly secure elliptic curve algorithm to improve efficiency and proposes the cryptosystem optimized for the resource-constrained industrial cyber-physical system. The proposed m-folding method–based elliptic curve encryption showed 50% faster encryption than the existing methods.
url https://doi.org/10.1177/1550147719879045
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AT seungwoopark mfoldingmethodbasedellipticcurvecryptosystemforindustrialcyberphysicalsystem
AT jaehwanlee mfoldingmethodbasedellipticcurvecryptosystemforindustrialcyberphysicalsystem
AT sangohpark mfoldingmethodbasedellipticcurvecryptosystemforindustrialcyberphysicalsystem
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