建構知識導向為基礎的地理資訊網路架構應用於空間決策支援系統之研究

Chin-Te Jung; 榮峻德

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/62993

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	孫志鴻
dc.contributor.author	Chin-Te Jung	en
dc.contributor.author	榮峻德	zh_TW
dc.date.accessioned	2021-06-16T16:17:56Z	-
dc.date.available	2013-03-15
dc.date.copyright	2013-03-15
dc.date.issued	2013
dc.date.submitted	2013-02-04
dc.identifier.citation	Andrei, M., Berre, A., Costa, L., Duchesne, P., Fitzner, D., Grcar, M., Hoffmann, J. o., Klien, E., Langlois, J., Limyr, A., Maue, P., Schade, S., Steinmetz, N., Tertre, F., Vasiliu, L., Zaharia, R., and Zastavni, N. (Year) of Conference. SWING: An Integrated Environment for Geospatial Semantic Web Services. Paper read at 5th European Semantic Web Conference, ESWC 2008, at Tenerife, Canary Islands, Spain Andrews, T., Curbera, F., Dholakia, H., Goland, Y., Klein, J., Letmann, F., Liu, K., Roller, D., Smith, D., Thatte, S., Trickovic, I., and Weerawarana, S. (2003) Business Process Execution Language for Web Services version 1.1 2003 [cited. Available from http://download.boulder.ibm.com/ibmdl/pub/software/dw/specs/ws-bpel/ws-bpel.pdf. Antoniou, G., and Harmelen, F. (2004) A semantic Web primer. Cambridge, Massachusetts: The MIT Press. Antoniou, G., and Harmelen, F. v. (2003) Web Ontology Language: OWL. In Handbook on Ontologies in Information Systems, eds. S. Staab and R. Studer, 76-92: Springer-Verlag. Baader, F., and Nutt, W. (2003) Basic Description Logics. Edited by F. Baader, The description logic handbook : theory, implementation, and applications. New York: Cambridge University Press. Barsalou, L. W. (1999) Perceptual symbol systems. Behavioral and brain sciences, 22: 577-609. Bernald, L., Einspanier, U., Haubrock, S., Hubner, S., Kuhn, W., Lessing, R., Lutz, M., and Visser, U. (2003) Ontologies for intelligent search and semantic translation in spatial data infrastructures. Photogrammetric-Fernerkundung-GeoInformation (PFG), 6: 451-462. Bernard, L., Einspanier, U., Haubrock, S., Hubner, S., Kuhn, W., Lessing, R., Lutz, M., and Visser, U. (2003a) Ontologies for intelligent search and semantic translation in spatial data infrastructures. Photogrammetric-Fernerkundung-GeoInformation (PFG), 6: 451-462. Bernard, L., Einspanier, U., Lutz, M., and Protele, C. 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dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/62993	-
dc.description.abstract	Cyberinfrastructure 利用資訊科技(譬如：雲端科技、網路服務等)試圖整合網際網路上大量且複雜的資料與知識，提供有效的知識查詢、資料搜索、科技應用之平台。在地理資訊科學領域中，近年來由於空間資料基礎架構的建立、地理資訊服務的發佈以及雲端服務的概念興起，對於如何整合大量的空間資料、空間知識以及空間科技的地理資訊cyberinfrastructure議題，也興起了許多研究課題。譬如：如何將知識標準化、如何透過知識來整合資料（除了資料格式轉換問題之外，更重要的是語意互通之問題）以及如何應用新的空間科技來改善傳統上的不足。因此，本研究針對地理資訊cyberinfrastructure目標，提出一個以知識為導向的架構(Knowledge-Oriented CyberInfrastructure, 簡稱KOCI)，透過知識本體ontologies的建立與串接，整合大量的空間資料與知識，應用於空間決策支援系統之中，讓決策者、專家學者以及網路服務發佈者三方不同使用者，都能夠透過本架構加以整合運作。本架構包含(1)知識導向型的註冊平台，讓網路服務發佈者註冊其所發佈的地理資訊服務於知識本體之中，使得此服務能夠被更精準的查詢與自動化的使用;(2)知識庫與推理引擎，標準化專家學者的領域知識，讓知識能夠被機器瞭解且自動的推理出相關的知識;(3)網路平台，讓決策者能夠透過此平台，快速查詢空間決策問題之解答;(4)網路服務串接執行器，讓透過知識推理引擎所查詢出的地理資訊服務，能夠自動化的串接與執行，回答決策者的空間決策問題需求。透過本研究所提出之架構，不同使用者的需求、專業以及資料，能夠被知識化的解答、管理與應用，邁向以知識為導向的地理資訊cyberinfrastructure.	zh_TW
dc.description.abstract	Cyberinfrastructure aims to cooperate information and communication technologies to deal with growing volume and heterogeneity of data, information, and knowledge. In GIScience, spatial data infrastructure, cloud computing, and Web services are some research issues that aim for geospatial information cyberinfrastructure. Although these research issues have paved a way for data interoperability in the cyberinfrastructure, how to cooperate with knowledge is still a challenge (e.g. knowledge sharing and reusing, and knowledge-oriented discovering needed data). Therefore, in this research, we provided a knowledge-oriented framework for cyberinfrastructure to integrate knowledge from domain experts, data from data providers, and technologies by using ontologies in the four parts of the framework: a Web portal, an ontologies engine, an ontology registry in SDI, and a service chain mediator. The Web portal is for users (e.g. decision makers) to submit their geospatial statements. By ontologies which manage geospatial knowledge, contributed by domain experts, in a standard, structural, and sharable format, the ontologies engine can understand the structural knowledge to infer solutions in response to the submitted statement, and to automatically discover needed GI services, including data and functions, in the SDI. The chain mediator then constructs a workflow to and consequently processing the GI services to generate a result for the statement. The proposed framework presents a new flexible architecture to integrate knowledge form domain experts, multiple GI services in SDI, and technologies from ontologies for the knowledge-oriented cyberinfrastructure.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T16:17:56Z (GMT). No. of bitstreams: 1 ntu-102-D94228001-1.pdf: 5194716 bytes, checksum: 4d836cdb48fe9fce8c2015c433045acd (MD5) Previous issue date: 2013	en
dc.description.tableofcontents	Chapter 1 1 1.1. The challenges 2 1.1.1. The challenges from Geospatial cyberinfrastructure 2 1.1.2. The challenges from Internet GIS 3 1.1.3. The challenges from knowledge sharing in SDSS 5 1.2. Research questions 5 1.2.1. How to achieve geospatial semantic interoperability 5 1.2.2. How to provide a knowledge-oriented way for SDSS in the geospatial CI 6 1.3. Research purposes 6 1.3.1. Using ontologies for semantic interoperability and knowledge sharing 6 1.3.2. Building a framework for the knowledge-oriented SDSS in geospatial CI 7 1.3.3. Practicing the framework into a prototype and using a scenario to illustrate advantages and disadvantages of the framework. 7 1.3.4. Building an architecture for the knowledge-oriented Spatial Decision Support System 8 1.3.5. Practicing the framework into a prototype and using a scenario to illustrate advantages and disadvantages of the framework. 8 1.4. The arrangement of Chapters 9 Chapter 2 10 2.1. Semantic Web 11 2.1.1. Semantic problems 11 2.1.2. What is a Semantic Web? 14 2.1.3. Components of Semantic Web 14 2.1.4. Geospatial Semantic Web 16 2.2. Ontologies 17 2.2.1. Ontology 18 2.2.2. Ontologies Engineering 18 2.2.3. Ontology languages 21 2.2.4. Ontology Inference 23 2.2.4.1. Description Logics (DL) 23 2.2.4.2. Semantic Web Rule Language (SWRL) 26 2.2.5. Geospatial Ontologies 26 2.3. Discovery GI services in SDI 28 2.3.1. SDI 29 2.3.2. Web Services 31 2.3.3. GI services 32 2.3.4. Discovery GI services on SDI 34 2.3.4.1. Discovery GI services by Ontology search 34 2.3.4.2. Compose GI services chain by using Ontology 35 2.4. Ontology-based Spatial Decision Support System 37 2.4.1. SDSS v.s. Ontology-based SDSS 37 2.4.2. An architecture for ontology-based SDSS 40 Chapter 3 42 3.1. The knowledge oriented framework of GI cyberinfrastructure for spatial decision support systems 43 3.2. The components of the KOCI framework 44 3.2.1. A Web Portal 44 3.2.2. An Ontolgoies Engine 45 3.2.2.1. OGC geometry ontology 47 3.2.2.2. Web services ontology 48 3.2.2.3. GIS function ontology 49 3.2.2.4. Question type ontology 50 3.2.2.5. Task ontology 52 3.2.3. An ontology registry in SDI 54 3.2.4. Service Chain Mediator 56 3.3. The processes among the components of the framework 58 Chapter 4 62 4.1. The purposes of the prototype 63 4.2. The implementation 63 4.3. A scenario for the prototype 65 4.3.1. The tasks for Web service providers in the scenario 65 4.3.2. The tasks for domain experts in the scenario 66 4.3.3. The tasks for SDSS Developers in the scenario 68 4.3.4. The tasks for decision makers in the scenario 76 Chapter 5 79 5.1. Discussions 80 5.2. Comparison to related works 82 5.2.1. About The framework 82 5.2.2. About the conceptual workflow 83 Chapter 6 86 6.1. Conclusions 87 6.2. Future works 89 6.2.1. Matchmaking 89 6.2.2. Concrete workflow 89 6.2.3. Natural Language. 90 6.2.4. Wiki interface for the knowledge editor 90 6.3. Future applications 90 6.3.1. Sensor Web 90 6.3.2. Multi-Agents 92 References 94 Appendix A: Glossary of Terms 103 Appendix B: Ontologies OWL 108
dc.language.iso	en
dc.subject	GIS	zh_TW
dc.subject	Ontology	zh_TW
dc.subject	CyberInfrastructure	zh_TW
dc.subject	知識導向	zh_TW
dc.subject	空間決策支援系統	zh_TW
dc.subject	semantic Web	en
dc.subject	ontology	en
dc.subject	GIS services	en
dc.subject	spatial data infrastructure	en
dc.title	建構知識導向為基礎的地理資訊網路架構應用於空間決策支援系統之研究	zh_TW
dc.title	KOCI: A Knowledge-oriented CyberInfrastructure for Spatial Decision Support System	en
dc.type	Thesis
dc.date.schoolyear	101-1
dc.description.degree	博士
dc.contributor.oralexamcommittee	朱子豪,張康聰,蔡博文,周學政
dc.subject.keyword	Ontology,知識導向,GIS,空間決策支援系統,CyberInfrastructure,	zh_TW
dc.subject.keyword	semantic Web,ontology,GIS services,spatial data infrastructure,	en
dc.relation.page	203
dc.rights.note	有償授權
dc.date.accepted	2013-02-05
dc.contributor.author-college	理學院	zh_TW
dc.contributor.author-dept	地理環境資源學研究所	zh_TW
顯示於系所單位：	地理環境資源學系

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