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u-Healthcare Context Information System Using Mobile Proxy Based on Distributed Object Group Framework

DOGF 기반의 모바일 프락시를 이용한 u-헬스케어 상황정보 시스템

  • Published : 2008.06.30

Abstract

This paper implemented the u-Healthcare Context Information System (HCIS) supporting ubiquitous healthcare by using location, health and titrating environment information collected from sensors/devices equipped in home for healthcare home service. The HCIS is based on the Distributed Object Group Framework (DOGF), a management model which can customize distributed resources, and manages various context information, applications and devices as a group in healthcare home environment, as one more logical units. Also, this system provides continuous healthcare multimedia service considering a resident's location using Mobile Proxy, and the healthcare context information through Context Provider to a resident in home. For verifying execution of our system, we implemented the seamless multimedia service based on resident's location and the prescription/advice and schedule notification/alarm service as healthcare applications in home. And we showed the executing results of healthcare home service by using service device existed in the residential space on which the resident is located according to the healthcare scenario.

본 논문에서는 헬스케어 홈 서비스를 위해 가정 내에 설치된 센서/기기로부터 수집된 위치, 건강 그리고 쾌적환경 정보를 이용하여 유비쿼터스 헬스케어를 지원하는 u-헬스케어 상황정보 시스템(HCIS)을 구현했다. HCIS는 분산자원의 맞춤형 관리모델인 분산객체그룹프레임워크(DOGF)를 기반으로 헬스케어 홈 환경에서 다양한 상황정보, 응용 그리고 장치들을 논리적인 하나 또는 그 이상의 단위로 그룹화하고 관리한다. 또한 본 시스템은 DOGF의 구성요소인 모바일프락시와 컨텍스트제공자를 통해 가정 내 거주자의 위치를 기반으로 연속적인 헬스케어용 멀티미디어 서비스를 지원하고, 거주자에게 필요한 상황정보를 제공한다. 본 시스템의 수행성을 검증하기 위해 홈 내에서 제공되는 헬스케어 응용으로 거주자 위치기반의 끊임없는 멀티미디어 서비스와 처방 주의 및 스케줄 알림/알람 서비스를 구현했다. 그리고 시나리오에 따라 거주자가 위치한 영역의 서비스 장치를 통해 헬스케어 홈 서비스의 수행결과를 보였다.

Keywords

References

  1. Berler A., Pavlopoulos S., and Koutsouris D., “Design of an interoperability framework in an regional healthcare system”, In Proceedings of Engineering in Medicine and Biology Society, Vol.2, pp.3093-3096, 2004
  2. Jochen Seitz, Nigel Davies, Michael Ebner, Adrian Friday, “A CORBA-based Proxy Architecture for Mobile Multimedia Applications,” Proceedings of the 2nd IFIP/ IEEE International Conference on Management of Multimedia Networks and Service(MMNS '98), Versailles, France
  3. Andrew T. Campbell, “QoS-aware Middleware for Mobile Multimedia Communications,” Multimedia Tools and Applications, Vol.7, No.1/2, pp.67-82, July, 1998 https://doi.org/10.1023/A:1009622203640
  4. C.S Shin, M.S. Kang, C.W. Jeong, and S.C. Joo, “TMO-based Object Group Framework for Supporting Distributed Object Management and Real-Time Services,” Lecture Notes in Computer Science, Vol.2834, pp.525-535. 2003.9
  5. 안동인, 김명희, 주수종, “ON/OFF 스위치와 센서를 이용한 홈 거주자의 위치추적 및 원격 모니터링 시스템”, 한국정보과학회 논문지 제12권 6호, pp.66-77, 2006.2
  6. K.H. Kim, Juqiang Liu, “Distributed Object-Oriented Real-Time Simulation of Ground Transportation Networks with the TMO Structuring Scheme,” In Proceedings of the IEEE CS 23nd International Computer Software & Applications Conferences, pp.130-138, 1999
  7. J. P. Sousa and D. Garlan, “Aura : an Architectural Framework for User Mobility in Ubiquitous Computing Environments,” IEEE/IFIP Conference on Software Architecture, Montreal, 2002
  8. A. D. Stefano, C. Santoro, “NetChaser : Agent Support for Personal Mobility,” IEEE Internet computing, 2000.3
  9. H. K. Pubinsztejn, M. Endler, and N.Rodrigues, “A Framework for Building Customized Adaptation Proxies for Mobile Computing,” Monografias da Ciencia da Computacao 22/05, PUC-Rio, Departmento de Informatica, 2005
  10. 임신영, 허재두, “상황인식 컴퓨팅 응용 기술 동향”, 전자통신동향분석 제 19권 제5호 2004.10. pp.31-40
  11. 권오병, 이남연, “상황인식 시스템 개발 현황”, 정보과학회지 제 24권 제 10호, 2006.10. pp.5-15
  12. Natalia Marasse, Chris Schmandt, “Location-aware information delivery with ComMotion,” In Proceedings of Second International Symposium on Handled and Ubiquitous Computing, HUC 2000, Springer Verlag. Bristol, UK, pp.157-171, September 2000
  13. Anind K. Dey, Gregory D. Abowd, “CyberMinder: A Context-aware system for supporting reminders,” In Proceedings of second International Symposium on Handheld and Ubiquitous Computing, HUC 2000, Springer Verlag, pp.172-186, September, 2000
  14. Kopetz, H., “Real-Time Systems: Design Principles for Distributed Embedded Applications,” Kluwer Academic Publishers, ISBN: 0-7923-9874-7, Boston, 1997
  15. K. N. Truong, G. D. Abowd, and J. A. Brotherton, “Who, what, when, where, how: Design issues of capture & access applications.,” in Proceedings of the International Conference on Ubiquitous Computing, pp.209-224, 2001