服務導向居家照護整合平臺

Yu-Shiu Lin; 林佑修

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/32731

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	曹承礎(Seng-Cho Chou)
dc.contributor.author	Yu-Shiu Lin	en
dc.contributor.author	林佑修	zh_TW
dc.date.accessioned	2021-06-13T04:14:22Z	-
dc.date.available	2006-07-29
dc.date.copyright	2006-07-29
dc.date.issued	2006
dc.date.submitted	2006-07-25
dc.identifier.citation	[1] Al-Muhtadi J, Ranganathan A, Campbell RH and Mickunas MD (2003) Cerberus: a context-aware security scheme for smart spaces. In: Proceedings of the IEEE International Conference on Pervasive Computing and Communications March 2003 [2] Anand Ranganathan and Roy H. Campbell, 'A Middleware for Context-Aware Agents in Ubiquitous Computing Environments', In Proceedings of ACM/IFIP/USENIX International Middleware Conference, Rio de Janeiro, Brazil, June 2003. [3] Andy Harter, Andy Hopper, Pete Steggles, Andy Ward, Paul Webster, 'The Anatomy of a Context-Aware Application', Wireless Networks 8(2-3): 187-197 (2002). [4] BPEL Specification v 1.1 , http://www-128.ibm.com/developerworks/library/specification/ws-bpel/ [5] Brown, P.J., Bovey, J.D. Chen, X. Context-Aware Applications: From the Laboratory to the Marketplace. IEEE Personal Communications, 4(5) (1997) 58-64 [6] Dey, A. K., et al., Towards a Better Understanding of Context and Context-Awareness. Technical Report 99-22, Georgia Institute of Technology, 1999. [7] Dey,Anind K., Daniel Salber and Gregory D. Abowd. 'A Context-based Infrastructure for Smart Environments' In Proceedings of the 1st International Workshop on Managing Interactions in Smart Environments (MANSE '99), Dublin, Ireland, December 1999 [8] Dishman E., “Inventing Wellness Systems for Aging in Place,” Computer, May 2004, pp. 34-41. [9] F. Bellifemine, A. Poggi, and G. Rimassa. JADE: A FIPA-compliant agent framework. In Proceedings of The Practical Applications of Intelligent Agents and MultiAgent Technology (PAAM), pages 97–108, 1999. [10] Fickas, S., et al., Software Organization for Dynamic and Adaptable Wearable Systems. First International Symposium on Wearable Computers, 1997, pp. 155-160. [11] G. Neumann and M. Strembeck. An Approach to Engineer and Enforce Context Constraints in an RBAC Environment. In Proceedings of 8th ACM Symposium on Access Control Models and Technologies (SACMAT 2003), pages 65–79, June 2003. 5.10 [12] H. Chen, T. Finin, and A. Joshi. Semantic web in in the context broker architecture. In Proceedings of PerCom 2004, March 2004. [13] H. Wu, M. Siegel, and S. Ablay, 'Sensor Fusion for Context Understanding', Proceedings of IEEE Instrumentation and Measurement Technology Conference, Anchorage, USA, May 2002. [14] Held, A., Modeling of context information for pervasive computing applications. Proc. of the 6th World Multiconference on Systemics, Cybernetics and Informatics (SCI2002), Orlando, FL, Jul 2002. [15] Henricksen, K, et al., Modeling Context Information in Pervasive Computing Systems. Proc. of the First International Conference on Pervasive Computing, (Pervasive'2002), Zurich, August 2002. [16] http://www.awarehome.gatech.edu/ [17] http://www.daml.org [18] http://www.htc.honeywell.com/projects/ilsa/ [19] IBM Enterprise Service Bus web site, http://www-306.ibm.com/software/info1/websphere/index.jsp?tab=landings/esbbenefits [20] IBM Redbooks, Patterns: Implementing an SOA Using an Enterprise Service Bus [21] IBM Redbooks, XML on z/OS and OS/390: Introduction to a Service-Oriented Architecture [22] IBM SOA and Web Services Zone, http://www.ibm.com/developerworks/... [23] Increasing the opportunities for aging in place, Elizabeth D. Mynatt, Irfan Essa, Wendy Rogers November 2000 Proceedings on the 2000 conference on Universal [24] Intille, S. S.. “Designing a Home of the Future.” IEEE Pervasive Computing, April-June 2002, pp. 80-86. [25] J. E. Bardram, R. E. Kjær, and M. . Pedersen. Context-Aware User Authentication – Supporting Proximity-Based Login in Pervasive Computing. In A. Dey, J. McCarthy, and A. Schmidt, editors, Proceedings of Ubicomp 2003: Ubiquitous Computing, Lecture Notes in Computer Science, pages 107–116, Oct. 2003. Springer Verlag. [26] Karen Zita Haigh and Holly Yanco, 2002. 'Automation as Caregiver: A Survey of Issues and Technologies', in AAAI-02 Workshop on Automation as Caregiver: The Role of Intelligent Technology in Elder Care, pages 39-53. 29 July 2002. Edmonton, Canada. [27] Karen Zita Haigh, Christopher W. Geib, Christopher A. Miller, John Phelps and Thomas Wagner, 2002. 'Agents for Recognizing and Responding to the Behaviour of an Elder', in AAAI-02 Workshop on Automation as Caregiver: The Role of Intelligent Technology in Elder Care, pages 31-38. 29 July 2002. Edmonton, Canada [28] Karen Zita Haigh, John Phelps and Christopher W. Geib, 2002. 'An Open Agent Architecture for Assisting Elder Independence', in The First International Joint Conference on Autonomous Agents and MultiAgent Systems (AAMAS), pages 578-586. 15-19 July 2002. Bologna, Italy. [29] Karen Zita Haigh, Liana M. Kiff, Janet Myers, Valerie Guralnik, Kathleen Krichbaum, John Phelps, Tom Plocher and David Toms, 2003. The Independent LifeStyle AssistantTM (I.L.S.A.): Lessons Learned. Honeywell Laboratories Technical Report number ACS-P03-023, 3660 Technology Drive, Minneapolis, MN 55418. December 2003 [30] Kautz, H.; Arnstein, L.; Borriello, G.; Etzioni,O. and Fox, D. 2002. An overview of the assisted cognition project. AAAI-02 Workshop [31] Kenta Matsumiya, Soko Aoki, Masana Murase, and Hideyuki Tokuda, “Zero-stop authentication: Sensorbased real-time authentication system”, in International Conference on Real-Time and Embedded Computing Systems and Applications (RTCSA 2003), Feb. 2003. [32] Kindberg, T. et al. People, Places, Things: Web Presence for the Real World. Hewlett-Packard Labs Technical Report HPL-2000-16, 2000. [33] M. Paolucci, T. Kawamura, T. R. Payne, and K. Sycara. Semantic Matching of Web Services Capabilities. In Proceedings of the First International Semantic Web Conference (ISWC2002), 2002. [34] M.P. Papazoglou and D. Georgakopoulos, “Service Oriented Computing,” Comm. ACM, vol. 46, no. 10, 2003, pp.25–28. [35] Mobile Agent based Integrated Control Architecture for Home Automation System Chao-Lin Wu;Wei-Cheng Wang ; Li-Chen Fu; Intelligent Robots and Systems, 2004. Proceedings. IEEE International Conference on, 28 Sep. - 2 Oct. 2004 [36] Neng-Shiang Liang; Li-Chen Fu; Chao-Lin Wu , An integrated, flexible, and Internet-based control architecture for home automation system in the Internet era,Robotics and Automation, 2002.Proceedings. ICRA '02.IEEE International Conference on , Volume: 2 , 11-15 May 2002 Pages:1101 - 1106 [37] P. Dockorn Costa, “Towards a Service Platform for Context-Aware Applications”, Masters thesis, University of Twente, August 2003 [38] Pascoe, J., The Stick-e Note Architecture: Extending the Interface Beyond the User. Proc. of the 2nd international conference on Intelligent user interfaces, Florida, United States, January, 1997, p. 261-264. [39] Pasley, J.: How BPEL and SOA are changing Web Services development. IEEE [40] Ryan, N., Pascoe, J., Morse, D. Enhanced Reality Fieldwork: the Context-Aware Archaeological Assistant. Gaffney,V., van Leusen, M., Exxon, S. (eds.) Computer Applications in Archaeology (1997) [41] SANDHU, R., COYNE, E., FEINSTEIN, H., AND YOUMAN, C. 1996. Role-based access control models. IEEE Comput. 29, 2 (Feb.). [42] Schilit, B., Adams, N. Want, R. Context-Aware Computing Applications. 1st International Workshop on Mobile Computing Systems and Applications. (1994) 85-90 [43] Schilit, B., Theimer, M. Disseminating Active Map Information to Mobile Hosts. IEEE Network, 8(5) (1994) 22-32 [44] T. Berners-Lee, J. Hendler, and O. Lassila. The Semantic Web. Scientific American, 284(5):34–43, 2001. [45] T. Gu et al., “An Ontology-based Context Modeling and Simulation Int’l, 2004. [46] T. Gu, H.K. Pung, and D.Q. Zhang, “A Service-Oriented Middleware for Building Context-Aware Services,” J. Network and Computer Applications, 2004. [47] Thomas A. Wagner, Valerie Guralnik and John Phelps, 2002. 'Achieving Global Coherence in Multi-Agent Cargiver Systems: Centralized versus Distributed Response Coordination in I.L.S.A.,' in AAAI-02 Workshop on Automation as Caregiver: The Role of Intelligent Technology in Elder Care, pages 97-102. 29 July 2002. Edmonton, Canada.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/32731	-
dc.description.abstract	人口老化是現在先進國家目前的趨勢，而居家照護產業的蓬勃發展是可以預期的。為了提供老人完整的照護服務，整合不同照護提供者的服務將是必要的課題。因此針對居家照護產業的服務整合平臺必須被提出以提供老人完整的到護，並且降低照護提供者開發時的困難度及縮短開發的時間。本研究提出服務導向居家照護整合平臺，以期透過中介知識本體所定義之語義網路服務將居家照護環境中異質化元件整合，希望能透過此平臺成功將照護提供者的軟體資產導入服務導向架構中。根本研究中所定義的居家照護服務運作模式，環境建設以及自動化家庭控制構造是平臺中主要的緊密連結的元件，其中環境建設負責控制及管理老人的相關資訊，自動化家庭控制構造負責控制家庭中的感應器及設備以及收集感應器的資訊。藉由一般知識本體及特定領域知識本體，本平臺可以透過語義配對以及網路服務使其與平臺外的元件加以整合。本研究所提出的服務整合平臺藉由語意整合提供居家照護提供者安全、良好環境以導入服務導向架構。	zh_TW
dc.description.abstract	Since aging population of this society helps bring the good days to the Digital Health Care industry, how to integrate services provided by different organizations would be the key issues in providing an integrity support for the elderly; therefore, the integration platform is believed to be an important issue for Digital Health Care environment in the near future. This thesis discusses the design and implementation of SOA based service integration platform for integrating heterogeneous components through Semantic Web Service in digital health care environment. And SOA-DHCSIP is proposed in this thesis. According to Service Operation Model proposed in this research, Context Infrastructure, which is responsible for modeling and managing the context, and Home Automation control architecture, which is responsible for control the sensors and devices and collect information from them, are essential tightly-coupled components in our platform. As common ontology and domain specific ontologies are provided, the platform can integrate external components with them by semantic matching through Web Service interface. In summary, SOA-DHCSIP is a SOA-ready service integration platform with well-designed security scheme, providing semantic integration components in Digital Health Care environment by Semantic Web Services.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T04:14:22Z (GMT). No. of bitstreams: 1 ntu-95-R93725026-1.pdf: 2122567 bytes, checksum: f58209cb03a82919e7aa97647e0d9340 (MD5) Previous issue date: 2006	en
dc.description.tableofcontents	Chapter 1 Introduction 1 1.1 Background 1 1.2 Motivation and Objectives 2 1.3 Structure 4 Chapter 2 Related Work 5 2.1 Smart home technology and Home care projects 5 2.1.1 Control architecture for the HA system 5 2.1.2 The Independent LifeStyle AssistantTM (I.L.S.A.) 6 2.2 Service Oriented Architecture (SOA) and related technology 9 2.2.1 Service Oriented Architecture (SOA) 9 2.2.2 Enterprise Service Bus (ESB) 11 2.2.3 Business Process Modeling 12 2.3 Context-awareness 13 2.3.1 What is Context 13 2.3.2 Modeling Context 14 2.3.3 Context Infrastructure 20 2.3.4 Authentication in context-aware environment 23 2.4 Semantic Web Technology 25 2.4.1 OWL 26 2.4.2 OWL-S 26 2.4.3 Semantic Matchmaking 27 Chapter 3 Design Goals and System Architecture 29 3.1 Platform Vision 29 3.2 Design Goals 31 3.2.1 Semantic Integration 31 3.2.2 Home Automation Support 31 3.2.3 SOA-ready Service Integration Platform 32 3.2.4 Integrity Security Scheme 32 3.2.5 Platform Mission 32 3.3 System Architecture 33 3.4 Building the service registries 35 3.4.1 Context Acquisition 35 3.4.2 Home Automation Control Architecture support 36 3.4.3 Service Registry Design 38 3.5 Security Scheme 39 3.5.1 A modularized authentication model 39 3.5.2 Multi-level Access Control 40 3.5.3 Security Scheme Design 41 Chapter 4 System Implementation 43 4.1 Implementation Issues 43 4.1.1 Context Modeling and Reasoning 43 4.1.2 Semantic Matching 44 4.1.3 Programming Paradigm inside the platform 44 4.1.4 Communication and Interaction between components 44 4.1.5 Service Access security mechanism 45 4.2 Ontology Construction 45 4.2.1 Common Upper Ontology 45 4.2.2 Domain-specific Ontologies 46 4.3 Build the Service Registries 49 4.3.1 The Home Automation Control Architecture 49 4.3.2 The Context Infrastructure 51 4.3.3 Service Registry Construction 52 4.4 Security Scheme 53 4.4.1 Authentication Mechanism 53 4.4.2 Access Control API 53 4.4.3 Service Access Security Mechanism 54 Chapter 5 Application Scenario 55 5.1 Virtual Chat 55 5.2 Family Digital Archive 56 5.3 Digital Family Portrait 58 5.4 Evaluation 60 Chapter 6 Conclusion and Future work 61 6.1 Conclusion 61 6.2 Future work 62 Bibliography i
dc.language.iso	en
dc.subject	服務導向架構	zh_TW
dc.subject	知識本體	zh_TW
dc.subject	服務整合	zh_TW
dc.subject	環境感知	zh_TW
dc.subject	網路服務	zh_TW
dc.subject	居家照護	zh_TW
dc.subject	ontology	en
dc.subject	Digital Health Care	en
dc.subject	SOA	en
dc.subject	service integration	en
dc.subject	Web Services	en
dc.subject	context-aware	en
dc.title	服務導向居家照護整合平臺	zh_TW
dc.title	SOA based Digital Health Care Service Integration Platform	en
dc.type	Thesis
dc.date.schoolyear	94-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	林俊叡(Ching-Ray Lin),蔡益坤(Yi-Kuan Tsay),吳玲玲(Ling-Ling Wu)
dc.subject.keyword	居家照護,知識本體,服務整合,環境感知,網路服務,服務導向架構,	zh_TW
dc.subject.keyword	Digital Health Care,ontology,service integration,context-aware,Web Services,SOA,	en
dc.relation.page	63
dc.rights.note	有償授權
dc.date.accepted	2006-07-25
dc.contributor.author-college	管理學院	zh_TW
dc.contributor.author-dept	資訊管理學研究所	zh_TW
顯示於系所單位：	資訊管理學系

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