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A Fast and Exact Verification of Inter-Domain Data Transfer based on PKI
Im Y. Jung,Hyeonsang Eom,Heon Y. Yeom 한국데이타베이스학회 2011 Journal of information technology applications & m Vol.18 No.3
Trust for the data created, processed and transferred on e-Science environments can be estimated with provenance. The information to form provenance, which says how the data was created and reached its current state, increases as data evolves. It is a heavy burden to trace and verify the massive provenance in order to trust data. On the other hand, it is another issue how to trust the verification of data with provenance. This paper proposes a fast and exact verification of inter-domain data transfer and data origin for e-Science environment based on PKI. The verification, which is called two-way verification, cuts down the tracking overhead of the data along the causality presented on Open Provenance Model with the domain specialty of e-Science environment supported by Grid Security Infrastructure (GSI). The proposed scheme is easy-applicable without an extra infrastructure, scalable irrespective of the number of provenance records, transparent and secure with cryptography as well as low-overhead.
유휴 멀티 e-Science 그리드 자원 공유를 위한 통합 자원 접근 제어
정임영(Im Y. Jung),정은진(Eunjin Jung),염헌영(Heon Y. Yeom) 한국정보과학회 2008 정보과학회논문지 : 시스템 및 이론 Vol.35 No.9·10
본 논문은 e-Science 그리드 자원 공유를 위한 가볍고 솔기없는 통합 자원 접근제어를 제안한다. 그리드 컴퓨팅에 기반한 e-Science는 고가의 과학 실험 장비를 포함하는 그리드 자원을 원격조정하고 이로부터 얻은 데이타를 고성능 컴퓨터를 통해 처리하는 총체적인 도메인을 구성하여 과학자들의 연구를 돕는다. 그런데, 많은 사용자들이 그리드 자원을 이용할 때, 사용자가 소속된 e-Science 그리드에서 자원이 부족할 경우, 원하는 자원을 이용하기 위해 기다리거나 자원이용을 포기할 수 있다. 이런 경우, 적절한 보상 하에 타 그리드의 유휴 자원을 이용할 수 있으면 자원제공자와 사용자 모두에게 도움이 될 수 있다. 그런데, e-Science 그리드는 개개 그리드 단위로 특정 과학응용을 연구하는 과학자들의 사용편의를 위해, 가상 조직(Virtual Organization-VO)에 특화된 자원 접근정책이 운영되고 있기 때문에, 자원의 공유가 결코 쉬운 문제가 아니다. 본 논문은 e-Science 그리드 사용자가 복수 개 타 그리드의 공유자원을 이용할 때, 전체 그리드 차원의 자원접근정책 통합을 위한 선협정(Service Level Agreement-SLA)이 필요없어 가볍고, 사용자가 소속 그리드의 자원을 이용하는 것과 같은 과정으로 추가적인 등록이 필요하지 않아 솔기없는 새로운 통합 자원 접근 제어를 제안한다. This paper proposes a light-weight, seamless integrated access control for global e-Science resource sharing. E-Science, based on Grid Computing, was designed to help scientists to remotely control and process the Grid resources such as high-end equipments and remote machines. As many researchers engage in the e-Science Grids, the researchers in a grid often have to wait for or give up use of the Grid resources, even when there are idle resources in other Grids. In this case, provided that proper compensation is given, Grid resource sharing is helpful both for the researchers and the Grids which provide their resources. But, sharing Grid resources globally is not simple, as each e-Science Grid is especially designed for resource sharing in its Virtual Organization(VO) and already has its unique access control policy for its resources. This paper proposes a new integrated access control for e-Science Grid resource sharing. The access control is light-weight without any priori service level agreement(SLA)s among the Grids which share their resources and seamless because the users can use the resources shared as the ones belonging to their Grids without their additional registration to the other Grids.
A Fast and Exact Verification of Inter-Domain Data Transfer based on PKI
Jung, Im-Y.,Eom, Hyeon-Sang,Yeom, Heon-Y. Korea Data Strategy Society 2011 Journal of information technology applications & m Vol.18 No.3
Trust for the data created, processed and transferred on e-Science environments can be estimated with provenance. The information to form provenance, which says how the data was created and reached its current state, increases as data evolves. It is a heavy burden to trace and verify the massive provenance in order to trust data. On the other hand, it is another issue how to trust the verification of data with provenance. This paper proposes a fast and exact verification of inter-domain data transfer and data origin for e-Science environment based on PKI. The verification, which is called two-way verification, cuts down the tracking overhead of the data along the causality presented on Open Provenance Model with the domain specialty of e-Science environment supported by Grid Security Infrastructure (GSI). The proposed scheme is easy-applicable without an extra infrastructure, scalable irrespective of the number of provenance records, transparent and secure with cryptography as well as low-overhead.
Kang, Sooyong,Yeom, Heon Y. The Korea Institute of Information and Commucation 2003 Journal of communications and networks Vol.5 No.3
Transmission of continuous media streams has been a challenging problem of multimedia service. Lots of works have been done trying to figure out the best solution for this problem, and some works presented the optimal solution for transmitting the stored video using smoothing schemes applied to each individual stream. But those smoothing schemes considered only one stream, not the whole streams being serviced, to apply themselves, which could only achieve local optimum not the global optimum. Most of all, they did not exploit statistical multiplexing gain that can be obtained before smoothing. In this paper, we propose a new smoothing scheme that deals with not an individual stream but the whole streams being serviced simultaneously to achieve the optimal network bandwidth utilization and maximize the number of streams that can be serviced simultaneously. We formally proved that the proposed scheme not only provides deterministic QoS for each client but also maximizes number of clients that can be serviced simultaneously and hence achieves maximum utilization of transmission bandwidth.
정임영 ( Im Y. Jung ),김은성 ( Eunsung Kim ),최형준 ( Hyung Jun Choi ),염헌영 ( Heon Y. Yeom ) 한국정보처리학회 2007 한국정보처리학회 학술대회논문집 Vol.14 No.2
HVEM DataGrid[1]는 연구자들이 초고압 전자현미경(HVEM-High Voltage Electron Microscope)을 이용한 실험 결과를 효율적으로 관리하고 공유하기 위한 공간이다. 여러 사람들이 동시에 이용하는 시스템으로 이종 저장소(heterogeneous storage)들을 포함할 수 있는 HVEM DataGrid 는 HVEM 실험결과를 이들의 메타정보와 같이 동기적으로 저장해야 한다. 이런 HVEM DataGrid 의 특성을 고려한 트랜잭션 관리는 트랜잭션의 ACID 성질을 만족하는 동시에 용량이 큰 e-Science 결과물을 효율적으로 다룰 수 있는 방안이 또한 필요하다. 따라서, 본 논문은 HVEM DataGrid 의 이종 저장소에 걸친 트랜잭션에 대한 효율적인 관리 방안을 제안한다.