Component-based Requirements Analysis for the GPS Applications

GPS 애플리케이션에 대한 컴포넌트 기반의 요구사항 분석

  • 이상영 (남서울대학교 보건행정학과) ;
  • 이윤현 (남서울대학교 보건행정학과)
  • Published : 2012.06.30

Abstract

GIS provides the various analyzing and displaying using diverse spatial data have supported the powerful functionality and friendly user-interface. But, early GIS software is developed as package tool, it have many difficulties with reducing the cost of developing GPS application and satisfying the various user requirements. At present, the developed GPS applications across multiple domains, despite the common features are built separately for each domain in terms of software engineering development followed out waste of time and money expenditure. However, common features between GPS applications, if deployed as a component assembly and reuse components in terms of enabling the two kinds of component-based development can bring out the beneficial results. In this paper, we described the Analysis and design of GPS ApplicationsS based on Component. Each GPS component is composed of many objects accomplish the atomic service processing and cooperate with each other. And, GPS components meets the qualifications of thc low cost of developing GPS application because of the reusability and re-composition.

Keywords

References

  1. G. Del Duca, R. Perago, V. Paciucci, G. Di Bitonto, and F. Principe, "Verification of GNSS Applications at Italian Regional Airports," Proc. of ENC-GNSS 2009.
  2. B. L. Harrison, S. Consolvo, and T. Choudhury. "Using multi-modal sensing for human activity modeling in the real world," In Handbook of Ambient Intelligence and Smart Environments, 2009.
  3. C. Hurter, B. Tissoires, and S. Conversy. "Spreading aircraft trajectories across views to support iterative queries," In IEEE Transactions on Visualization and Computer Graphics, 2009, pp. 1017-1024.
  4. H. Lu, W. Pan, N. D. Lane, T. Choudhury, and A. T. Campbell, "Soundsense: Scalable sound sensing for people-centric applications on mobile phones," In The International Conference on Mobile Systems, Applications, and Services, 2009.
  5. 서희석, 주승환, 이은정, 이승재, "DEVS 기반의 GPS 위치추적 시스템 개발에 관한 연구," 디지털산업정보학회 논문지, 제6권 제5호, 2010, pp. 1-7.
  6. C. Sutton and A. McCallum, "An introduction to conditional random fields for relational learning," In Introduction to statistical relational learning, chapter 4. MIT Press, Cambridge, MA, 2007.
  7. C. T. Symons, N. F. Samatova, R. Krishnamurthy, B. H. Park, T. Umar, D. Buttler, T. Critchlow, and D. Hysom, "Multi-criterion active learning in conditional random fields," In Proceedings of the 18th IEEE International Conference on Tools with Artificial Intelligence, 2006.
  8. Robert L. Glass, "The Standish report: does it really describe a software crisis?," Communications of the ACM, vol 49, no. 8, 2006, pp. 15-16.
  9. Hassan Gomaa, "Designing Software Product Lines with UML: From Use Cases to Pattern-Based Software Architectures," Addison Wesley Longman Publishing Co., Inc., USA, 2004.
  10. Douglas C. Schmidt, "Model-Driven Engineering," IEEE computer, 2006
  11. Frank Buschmann, Kevlin Henney, Douglas C. Schmidt, "Pattern-oriented Software Architecture: On Patterns and Pattern Languages," John Wiley and Sons, 2007.
  12. Grady Booch, James Rumbaugh, and Ivar Jacobson, "The Unified Modeling Language User Guide," Addison Wesley Longman Publishing Co., Inc., USA, 1999.
  13. W. Brown, "ComponentBased Software Engineering," IEEE Computer Society Press, 1996.
  14. 유문성, "확장된 UML 상호작용 다이어그램을 이용한 이동 에이전트의 이동성 표현," 디지털산업정보학회 논문지, 제7권 제1호, 2011, pp. 11-17.
  15. Booch, Rumbaugh and Jacobson, "The Unified Modeling Language User Guide," Addison Wesley. 1999.
  16. 김영규, 양해술, 최형진, "객체지향 환경에 서 소프트웨어 생산성 향상을 위한 프레임워크 모델," 한국산학기술학회 논문지, 제 9권, 제6호, 2008.
  17. 이현우, 박찬석, 고석하, "객체지향 개발 프로세스에서 비즈니스 프로세스 모델과 소프트웨어 아키텍처의 관계 연구를 위한 접근방법의 제언," Entrue Journal of Information Technology, Vol. 8, No. 2, 2009.
  18. 김인철, 김영웅, "확장된 UML 클래스 다이어그램을 이용한 객체 관계형 데이터베이스 설계 기법," 정보처리학회 추계학술발표회, 제12권, 제2호, 2005. pp. 91-94.
  19. Guerrier, S., "Improving Accuracy with Multiple Sensors: Study of Redundant MEMS-IMU/GPS Configurations," Proceedings of the ION GNSS 2009. Savannah, GE, USA. 2009.
  20. Waegli, A., et al, "Noise reduction and estimation in multipleelectro mechanical inertial systems," Measurement Science and Technology. Vol. 21, 2010.
  21. China Satellite Navigation Office. "BeiDou (COMPASS) Navigation ion Satellite System Development," Munich Satellite Navigation, 2010.
  22. S. H. Oh, Dong-Hwan Hwang, C. Park, S. J. Lee and Se Hwan Kim, "Attitude Determination GPS/INS Integrated Navigation System with FDI Algorithm for a UAV," Journal of Mechanical Science and Technology (KSME Int. J), Vol 19, No. 8, 2005, pp. 1529-1543. https://doi.org/10.1007/BF03023931