• The KIPS Transactions:PartD
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• v.12D no.6 s.102
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• pp.905-914
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• 2005

This paper suggests a healthcare home service system based on the distributed object group framework that can not only provide healthcare application services using the information obtained from the physical healthcare sensors and devices, and but also monitor and control these services remotely. The distributed object group framework supports the object group service, the interaction service between object groups and the real-time service in order to execute the healthcare application. Here object group means the unit of logical grouped objects or healthcare sensors and devices for a service. Our suggested system consists of 3 layers. The first layer presents the physical sensors and devices for healthcare, as a physical layer. The second layer lays the distributed object group framework, and the third layer, the upper's one, implements healthcare applications based on lower layers. With healthcare applications providing for this system, we implemented the location tracking service, the health information service and the titrating environment service. Also the integrated executing results of these services can be monitored and controlled via remote desktop systems or PDAs.

• Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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• 2001.10a
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• pp.503-509
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• 2001

For efficiently providing distributed services, distributed computing environments are specified the requirements of various services and distributed object platforms applied an object-oriented technology by TINA Consortium and OMG CORBA. Because applications are becoming large and distributing, their servicing and managing interfaces among objects are being complicated. In order to solve these defects, it is necessary to suggest a new object grouping model and specify object service/management requirements can be introduced under the object groups.

• Journal of the Korea Computer Industry Society
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• v.3 no.8
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• pp.1019-1026
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• 2002

The Distributed system environments are developing into a structure of the opening information communication network based on object-oriented concepts and distributed technologies. Such a reason is that it can not only decrease the complexity of distributed softwares, but also support object oriented application services to distributed environments without changes of its own communication network structure. In this paper, we designed object group model, that is, an extended middleware, we developed before. The distributed environment suggested consists of the CTS server and clients. As our results, we showed the interaction procedures between/among object groups and service procedures of distributed application in given distributed system.

• Annual Conference of KIPS
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• 2000.10b
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• pp.1215-1218
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• 2000

CORBA, DCOM, JavaRMI 등과 같은 분산 객체 기술이 분산 응용의 신뢰성을 직접적으로 향상시키지는 못한다. 이러한 분산 객체 기술에 고장 감내성을 추가하기 위해서는 객체 단위의 복제 그룹 관리와 고장 탐지 및 회복 메커니즘이 필요하다. 본 논문에서는 고장 감내형 JavaRMI 객체를 개발하기 위하여 고장 탐지와 그룹 관리를 위한 그룹관리자와 원격 인터페이스를 설계하고, 고장 감내성 클래스를 정의한다. 또한 고장 감내 객체의 투명한 그룹 참여를 위하여 Naming클래스와 RMIRegistry를 확장한다. 응용개발자는 고장 감내성 클래스를 상속함으로써 외부의 도움 없이 간단히 고장 감내 응용 객체를 개발 할 수 있다.

• Journal of Internet Computing and Services
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• v.3 no.2
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• pp.79-85
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• 2002

In open communication architecture, application systems consist of objects distributed in lots of computing nodes. To reduce complexity of development. and management of distributed software, to manage efficiently distributed objects and to provide realtime service, the mechanisms for object group management and communication are needed in distributed environment. In this paper we compose object groups and provide reliable group communication mechanism based on CORBA which can adopt a new service without lots of changes on existing system. Group consist of some subgroups that subgroup manager manages for improving the efficiency of group management and message ordering is kept by using sequencer, Communication method among groups uses multicast based on paint to point communication as well as IP multicast and we provide high performance by using selective retransmission of message through message history, We analyze the performance of the proposed mechanism through simulation in distributed environment.

• Journal of the Korea Computer Industry Society
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• v.8 no.2
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• pp.113-122
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• 2007

Recently, there are many research interests in providing efficient, temporal and spatial distribution multimedia streaming service. This paper proposed a temporal and spatial object grouping method for distribution multimedia streaming service. The proposed method performs the grouping structure by filtering and mapping with the collected frame object in application domains and it's peformed by JM relationship with the mapped frame objects. The results show that the performance provides the better than the other methods.

• Annual Conference of KIPS
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• 2005.05a
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• pp.1351-1354
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• 2005

분산응용을 개발하는데 효율적인 환경을 제공해주는 분산 객체그룹 프레임워크(Distributed Object Group Framework)를 이용한 분산 프로그램 개발 Tool-Kit을 구축하였다. 본 Tool-Kit은 분산응용 개발자들에게 DOGF의 기능을 쉽게 이용할 수 있도록 지원하기 위해 객체그룹 운영자 GUI, 서버 프로그램 개발자 GUI, 클라이언트 프로그램 개발자 GUI등 3가지 GUI로 구축하였다. 분산응용의 개발 시, 서버 프로그램 개발자는 서버 객체들 구현한 후 프레임워크에 등록 및 클라이언트에 대한 접근권한을 부여하고, 클라이언트 프로그램 개발자는 자신에게 접근권한이 부여된 이들 객체 또는 객체그룹을 검색하여 클라이언트 프로그램을 작성할 수 있도록 지원한다. 본 논문에서는 분산응용 개발 시 이용되는 Tool-Kit과 DOGF의 상호동작을 정의하고, 분산 프로그램개발 Tool-Kit을 구축하고, 간단한 분산응용을 이용해 Tool-Kit의 수행성을 보인다.

• Journal of Internet Computing and Services
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• v.11 no.1
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• pp.153-165
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• 2010

In this paper, we proposed a Proactive Application Service Engine (PASE) supporting tailor-made distributed application services based on the Distributed Object Group Framework (DOGF) efficiently managing distributed objects, in the viewpoint of distributed application, composed application on network. The PASE consists of 3 layers which are the physical layer, the middleware layer, and the application layer. With the supporting services of the PASE, the grouping service manages the data gathered from H/W devices and the object's properties for application by user's request as a group. And the security service manages the access of gathered data and the object according to user's right. The data filtering service executes the filtering function to provide application with gathered data. The statistics service analysis past data. The diagnostic service diagnoses a present condition by using the gathered data. And the prediction service predicts a future's status based on the statistics service and the diagnostic service. For verifying the executability of the PASE's services, we applied to a greenhouse automatic control application in ubiquitous agriculture field.

• Annual Conference of KIPS
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• 2005.05a
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• pp.1355-1358
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• 2005

최근 초고속 인터넷의 보급과 웰빙 복지사회 성숙은 기존 헬스케어 서비스의 컴퓨팅 환경을 통합 분산 환경에서 가능하게 하였다. 본 논문에서는 분산객체그룹 프레임워크를 적용하여 각종 센서와 장치 그리고 이를 지원하는 응용들을 그룹화 하여 헬스케어 홈 서비스를 제공하는 환경을 제안한다. 이를 위해 하위계층인 물리계층의 각종 센서 및 장치들과 상위 계층인 헬스케어 홈 서비스 응용간의 상호작용을 정의하였다. 그리고 헬스케어 홈 서비스 지원 시뮬레이터 환경에서 시뮬레이터를 구현 및 시연하여 객체그룹 프레임워크의 수행성을 검증하고, 보다 효과적인 헬스케어 홈 서비스 지원 수행환경을 제안하고자 한다.

• Journal of KIISE:Computer Systems and Theory
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• v.30 no.5_6
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• pp.307-318
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• 2003

In this paper, we design and construct a TMO object group that provides the guaranteed real-time services in the distributed object computing environments, and verify execution power of its model for the correct distributed real-time services. The TMO object group we suggested is based on TINA's object group concept. This model consists of TMO objects having real-time properties and some components that support the object management service and the real-time scheduling service in the TMO object group. Also TMO objects can be duplicated or non-duplicated on distributed systems. Our model can execute the guaranteed distributed real-time service on COTS middlewares without restricting the specially ORB or the of operating system. For achieving goals of our model. we defined the concepts of the TMO object and the structure of the TMO object group. Also we designed and implemented the functions and interactions of components in the object group. The TMO object group includes the Dynamic Binder object and the Scheduler object for supporting the object management service and the real-time scheduling service, respectively The Dynamic Binder object supports the dynamic binding service that selects the appropriate one out of the duplicated TMO objects for the clients'request. And the Scheduler object supports the real-time scheduling service that determines the priority of tasks executed by an arbitrary TMO object for the clients'service requests. And then, in order to verify the executions of our model, we implemented the Dynamic Binder object and the Scheduler object adopting the binding priority algorithm for the dynamic binding service and the EDF algorithm for the real-time scheduling service from extending the existing known algorithms. Finally, from the numerical analyzed results we are shown, we verified whether our TMO object group model could support dynamic binding service for duplicated or non-duplicated TMO objects, also real-time scheduling service for an arbitrary TMO object requested from clients.