• Journal of the Korean Institute of Intelligent Systems
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• v.24 no.3
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• pp.239-244
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• 2014

As the usefulness of mobile device is kept growing the privacy of the cloud computing is receiving more attentions. Even though many researches and solutions for privacy matters are suggested we are still worrying about the security problems. In addition most of cloud computing systems uses file-level synchronization which make it difficult to modify a part of a file. If we use data-centric app that stores data on embedded DBMS such as SQLite, a simple synchronization may incur some loss of information. In this paper we propose a solution to build a personal cloud that supports record-level synchronization. And we show a prototype system which uses RESTful web services and the same schema on mobie devices and the cloud storage. Synchronization is achieved by using a kind of optimistic concurrency control.

• Journal of the Korea Society of Computer and Information
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• v.27 no.12
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• pp.9-16
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• 2022

In this paper, we propose a plan to design and utilize the RDBS(Record Block Data file management System) so that data can be recovered when data files in the Combat Management System are mismatched. The CMS(Combat Management System) manages the same files in multiple IPN(Infomation Processing Node) repositories to support multiplexing. However, mismatches in data files can occur due to equipment maintenance or user immaturity. The existing CMS does not manage the history of changes in data files, and when a mismatch occurs, data file were synchronized based on the latest date. But, It is difficult to say that files with the latest date have the highest reliability, and once the file synchronization has progressed, it cannot be recovered with pre-synchronization data. To solve this problem, data was stored and synchronized in units of record blocks using RDBS proposed in this paper, and the Rsync algorithm was used to reduce the overhead of file synchronization due to units of record blocks. SW applied with RDBS was tested for performance in a simulated environment, and it was confirmed that it could be applied to CMS through normal operation confirmation.

• Journal of KIISE:Software and Applications
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• v.26 no.5
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• pp.621-638
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• 1999

재시작 회복시 수행해야 할 작업략을 줄이기 위하여 주기적으로 수행되는 검사점 중 퍼지 검사점은 정상적인 트랜잭션들의 수행과 병행하여 수행된다. 트랜잭션들과 퍼지 검사점의 수행시, 로그 레코드 기록의 순서화를 위한 로그 래취를 획득한 상태에서 로그 레코드를 기록할수있으며, 트랜잭션 엔트리의 무결성을 보장하기 위한 트랜잭션 래취를 획득한 상태에서 트랜잭션은 로그 레코드의 기록과 관련된 트랜잭션 상태를 변경할수 있으며 검사점 프로세스는 트랜잭션의 상태를 검사할 수 있다. 퍼지 검사점과 트랜잭션들이 수행이 비동기로 수행되는 상황에서 로그래취와 트랜잭션 래취의 획득 및 해제 방법이 적절하지 못한 경우, 퍼지 검사점이 어떤 트랜잭션의 트랜잭션 상태를 검사하기 전에 그 트랜잭션에 의하여 기록된 로그 레코드이지만 그 퍼지 검사점이 그 트랜잭션 상태를 검사할때까지 그 로그 레코드의 기록상황이 그 트랜잭션의 트랜잭션 상태에 반영되지 않은 경우가 발생할수 있다. 이 경우, 기록 상황이 트랜잭션 상태에 반영되지 않은 그 로그 레코드를 그 퍼지 검사점에 대한 그 트랜잭션의 상태미방영 로그 레코드라고 한다. 본 논문은 상태미반영 로그 레코드를 발생시키는 상황들을 분석하고, 상태미반영 로그 레코드의 발생에 따른 문제점들을 기술하며, 상태미반영 로그 레코드의 발생에 대하여 전면 방지 기법, 일부 방지 기법 그리고 전면 허용하지만 회복시 이를 해결하는 기법등 세가지 해결책을 제시한다.

• Journal of the Korea Institute of Information and Communication Engineering
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• v.15 no.5
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• pp.1105-1110
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• 2011

It is possible to synchronize the spatio-temporal data with a server using a wireless network. These data has the benefit to be up-to-date and able to service to the user efficiently. However, the mobile devices or the wireless network are very vulnerable to various hard or soft failures. If an failure occurs during a synchronization process, the spatio-temporal data which is synchronizing could be inconsistent state. In this paper, we propose the recovery scheme to solve the problem caused by the errors which occur during the synchronization on mobile environments. The proposed scheme writes the log records for the synchronization process into the both local storages of the server and the mobile client. When the errors arise, the data which are synchronizing are recovered using the written log records. Also, we design and implement the proposed recovery scheme on the synchronization system.

• Journal of the Korea Society of Computer and Information
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• v.16 no.5
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• pp.79-91
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• 2011

In this paper, a DS (Data Synchronization) server for mobile communication environments is constructed and the suitability and the performance of its operations are validated. The DS server provides a way to update the newest data and keep data consistency for clients (mobile devices). In addition, the DS server constructed in this paper supports various synchronization types, and detects all changes and conflicts. In case of data conflicts, the DS server resolves the conflicts according to the several policies implemented in this work. The DS server conforms to the OMA(Open Mobile Alliance) DS standard protocol for interoperability with other mobile devices and servers. In addition to the transmission-by record scheme proposed by the OMA DS standard protocol, the DS server constructed in this paper also provides the transmission-by field scheme for the enhancement transmission performance between the server and clients. In order to validate its operations, data synchronization between the DS server and the SCTS (SyncML Conformance Test Suit), the suitability validation tool provided by the OMA, is performed. The validation results show that the DS server constructed in this paper satisfies all of the test cases except the Large Object function. The Large Object function will be implemented later because the function is not needed for the personal information synchronization process which this paper aims for. Also, synchronization times of the DS server are measured while increasing the number of data and clients. The results of the performance evaluations demonstrate that the DS server is scalable, in the sense that it has not suffered from any serious bottlenecks with respect to the number of data and clients. We expect that this work will provide a framework for various studies in the future for improving mobile DS operations.