The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
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The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
A rede ad hoc sem fio é uma das plataformas mais adequadas para fornecer serviços de comunicação para suportar aplicações móveis em áreas públicas onde não existe infraestrutura de comunicação fixa. No entanto, devido à natureza aberta das ligações sem fios e à falta de infra-estruturas de segurança num ambiente de rede ad hoc, as aplicações que operam em plataformas de rede ad hoc estão sujeitas a desafios de segurança não triviais. O gerenciamento assimétrico de chaves, que é amplamente adotado para ser uma base eficaz para serviços de segurança em um ambiente de rede aberta, normalmente desempenha um papel crucial no atendimento aos requisitos de segurança de tais aplicações. Neste artigo, propomos um esquema seguro de gerenciamento de chaves assimétricas, o Serviço de Certificado Ubíquo e Seguro (USCS), que é baseado em uma variante da Autoridade de Certificação Distribuída (DCA) - a Autoridade de Certificação Totalmente Distribuída (FDCA). Semelhante ao FDCA, o USCS introduz a presença de vizinhos de 1 salto que detêm ações da chave de assinatura privada do DCA e podem colaborar para emitir certificados, fornecendo assim um serviço de gerenciamento de chaves assimétricas. Tanto o USCS como o FDCA pretendem alcançar uma maior disponibilidade do que o esquema básico de DCA; no entanto, o USCS é mais seguro do que o FDCA na medida em que o primeiro alcança elevada disponibilidade através da distribuição de ações existentes a novos membros, em vez de gerar novas ações como faz o esquema FDCA. A fim de concretizar o potencial de alta disponibilidade do USCS, também é proposto um algoritmo de seleção de compartilhamento. Os resultados experimentais demonstraram que o USCS é uma abordagem mais segura do esquema DCA, na medida em que pode alcançar uma segurança mais forte do que o FDCA, ao mesmo tempo que atinge uma alta disponibilidade semelhante à do FDCA. Os experimentos também mostraram que o USCS incorre apenas em despesas de comunicação moderadas.
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Meng GE, Kwok-Yan LAM, Jianbin LI, Siu-Leung CHUNG, "Ubiquitous and Secure Certificate Service for Wireless Ad Hoc Network" in IEICE TRANSACTIONS on Information,
vol. E93-D, no. 7, pp. 1848-1856, July 2010, doi: 10.1587/transinf.E93.D.1848.
Abstract: Wireless ad hoc network is one of the most suitable platforms for providing communication services to support mobile applications in public areas where no fixed communication infrastructure exists. However, due to the open nature of wireless links and lack of security infrastructure in an ad hoc network environment, applications operating on ad hoc network platforms are subjected to non-trivial security challenges. Asymmetric key management, which is widely adopted to be an effective basis for security services in an open network environment, typically plays a crucial role in meeting the security requirements of such applications. In this paper, we propose a secure asymmetric key management scheme, the Ubiquitous and Secure Certificate Service (USCS), which is based on a variant of the Distributed Certificate Authority (DCA) - the Fully Distributed Certificate Authority (FDCA). Similar to FDCA, USCS introduces the presence of 1-hop neighbors which hold shares of DCA's private signature key, and can collaborate to issue certificates, thereby providing asymmetric key management service. Both USCS and FDCA aim to achieve higher availability than the basic DCA scheme; however, USCS is more secure than FDCA in that the former achieves high availability by distributing existing shares to new members, rather than generating new shares as the FDCA scheme does. In order to realise the high availability potential of USCS, a share selection algorithm is also proposed. Experimental results demonstrated that USCS is a more secure approach of the DCA scheme in that it can achieve stronger security than FDCA while attaining high availability similar to that of FDCA. Experiments also showed that USCS incurs only moderate communication overheads.
URL: https://global.ieice.org/en_transactions/information/10.1587/transinf.E93.D.1848/_p
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@ARTICLE{e93-d_7_1848,
author={Meng GE, Kwok-Yan LAM, Jianbin LI, Siu-Leung CHUNG, },
journal={IEICE TRANSACTIONS on Information},
title={Ubiquitous and Secure Certificate Service for Wireless Ad Hoc Network},
year={2010},
volume={E93-D},
number={7},
pages={1848-1856},
abstract={Wireless ad hoc network is one of the most suitable platforms for providing communication services to support mobile applications in public areas where no fixed communication infrastructure exists. However, due to the open nature of wireless links and lack of security infrastructure in an ad hoc network environment, applications operating on ad hoc network platforms are subjected to non-trivial security challenges. Asymmetric key management, which is widely adopted to be an effective basis for security services in an open network environment, typically plays a crucial role in meeting the security requirements of such applications. In this paper, we propose a secure asymmetric key management scheme, the Ubiquitous and Secure Certificate Service (USCS), which is based on a variant of the Distributed Certificate Authority (DCA) - the Fully Distributed Certificate Authority (FDCA). Similar to FDCA, USCS introduces the presence of 1-hop neighbors which hold shares of DCA's private signature key, and can collaborate to issue certificates, thereby providing asymmetric key management service. Both USCS and FDCA aim to achieve higher availability than the basic DCA scheme; however, USCS is more secure than FDCA in that the former achieves high availability by distributing existing shares to new members, rather than generating new shares as the FDCA scheme does. In order to realise the high availability potential of USCS, a share selection algorithm is also proposed. Experimental results demonstrated that USCS is a more secure approach of the DCA scheme in that it can achieve stronger security than FDCA while attaining high availability similar to that of FDCA. Experiments also showed that USCS incurs only moderate communication overheads.},
keywords={},
doi={10.1587/transinf.E93.D.1848},
ISSN={1745-1361},
month={July},}
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TY - JOUR
TI - Ubiquitous and Secure Certificate Service for Wireless Ad Hoc Network
T2 - IEICE TRANSACTIONS on Information
SP - 1848
EP - 1856
AU - Meng GE
AU - Kwok-Yan LAM
AU - Jianbin LI
AU - Siu-Leung CHUNG
PY - 2010
DO - 10.1587/transinf.E93.D.1848
JO - IEICE TRANSACTIONS on Information
SN - 1745-1361
VL - E93-D
IS - 7
JA - IEICE TRANSACTIONS on Information
Y1 - July 2010
AB - Wireless ad hoc network is one of the most suitable platforms for providing communication services to support mobile applications in public areas where no fixed communication infrastructure exists. However, due to the open nature of wireless links and lack of security infrastructure in an ad hoc network environment, applications operating on ad hoc network platforms are subjected to non-trivial security challenges. Asymmetric key management, which is widely adopted to be an effective basis for security services in an open network environment, typically plays a crucial role in meeting the security requirements of such applications. In this paper, we propose a secure asymmetric key management scheme, the Ubiquitous and Secure Certificate Service (USCS), which is based on a variant of the Distributed Certificate Authority (DCA) - the Fully Distributed Certificate Authority (FDCA). Similar to FDCA, USCS introduces the presence of 1-hop neighbors which hold shares of DCA's private signature key, and can collaborate to issue certificates, thereby providing asymmetric key management service. Both USCS and FDCA aim to achieve higher availability than the basic DCA scheme; however, USCS is more secure than FDCA in that the former achieves high availability by distributing existing shares to new members, rather than generating new shares as the FDCA scheme does. In order to realise the high availability potential of USCS, a share selection algorithm is also proposed. Experimental results demonstrated that USCS is a more secure approach of the DCA scheme in that it can achieve stronger security than FDCA while attaining high availability similar to that of FDCA. Experiments also showed that USCS incurs only moderate communication overheads.
ER -