可分享土木領域實驗資料、模擬結果與模型的社群平台設計

Yu-Hsiang wen; 溫鈺翔

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/55577

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	謝尚賢(Shang-Hsien Hsieh)
dc.contributor.author	Yu-Hsiang wen	en
dc.contributor.author	溫鈺翔	zh_TW
dc.date.accessioned	2021-06-16T04:10:27Z	-
dc.date.available	2014-09-03
dc.date.copyright	2014-09-03
dc.date.issued	2014
dc.date.submitted	2014-08-21
dc.identifier.citation	Bakshi, K. 2012. Considerations for big data: Architecture and approach. Aerospace Conference, March 2012. IEEE, 1-7. Boyd, D. & Ellison, N. 2007. Social network sites: Definition, history, and scholarship. Journal of Computer-Mediated Communication, 13 (1), article 11. Chen, Y. W. & Hsieh, S. H. 2013. A BIM assisted rule based approach for checking of green building design. Proceedings of the 13th International Conference on Construction Applications of Virtual Reality (CONVR 2013), 30-31 October 2013, London, UK. Eastman, C., Teicholzt, P., Sacks, R. & Liston, K. 2011. BIM Handbook: A Guide to Building Information Modeling for Owners, Managers, Designers, Engineers and Contractors, Wiley. Gupta, A., Cemesova, A., Hopfe, C. J., Rezgui, Y, & Sweet, T. 2014. A conceptual framework to support solar PV simulation using an open-BIM data exchange standard. Automation in Construction 37, 166-181. Robert, C., Tan, P. N., Srivastava, J. 1999. Discover of interesting usage patterns from web data. Technical report TR 99-022. Han, J., Haihong, E., Le, G. & Du, J. 2011. Survey on NoSQL database. Proceedings of the 6th International Conference on Pervasive Computing and Applications (ICPCA 2011), 26-28 October 2011, 363-366. Hsieh, S. H., Kang, S. C. & Chien, H. T. 2013. Toward an experience-enhanced BIM approach for lifecycle management of public living space. Proceedings of the 1st International Conference on Civil and Building Engineering Informatics (ICCBEI 2013), 7-8 November 2013, Tokyo, Japan. 349-356. Jahnkassim, P. S., Abakr, Y. & Ibrahim, I. I. 2013. Integrating simulation and visualization for energy efficiency in a large public mall in the tropics. Proceedings of 13th International Conference on Construction Application of Virtual Reality, 31-31 October 2013, London, UK, 90-101. Kuo, H. J., Chen, Y. W., Yeng, C. H., Chien, W. Y., Guo, R. C., Hsieh S. H., Chan, C. C. & Sung, H. C. 2011. A case study on BIM energy analysis of BIPV buildings. Proceedings of the 2011 International Conference on Construction Applications of Virtual Reality, November 3-4, 2011, Weimar, Germany, 496-506. Lenzen, M., Wier, M., Cohen, C., Hayami, H., Pachauri, S. & Schaeffer, R. 2006. A comparative multivariate analysis of household energy requirements in Australia, Brazil, Denmark, India and Japan. Energy, 31, 181-207. Li, Y. & Manoharan, S. 2013. A performance comparison of SQL and NoSQL databases. Proceedings of 2013 IEEE Pacific Rim Conference on Communications, Computers and Signal Processing (PACRIM 2013), 27-29 August 2013, 15-19. Ljad Madisch. 2008. ResearchGate [Online]. Available: http://www.researchgate.net/ [Accessed 29 May. 2014]. Manyika, J., Chui, M., Brown, B., Bughin, J., Dibbs, R., Roxburgh, C. & Byers, A. 2011. Big data: The next frontier for innovation, competition, and productity. Executive Summary, McKinsey Global Institute. Play framework. 2007. Play framework [Online]. Available: http://www.playframework.com/ [Accessed 29 May. 2014]. Rasys, E., Hoods, M., Dawood, N. & Kassem, M. 2014. A Web3D Enabled Information Integration Framework for Facility Management. Australasian Journal of Construction Economics and Building-Conference Series, 2014. 1-12. Reenskaug, T. M. H. 1979. The original MVC reports. Rick, C. 2010. Scalables SQL and NoSQL database store. ACM SIGMOD Record, v.39 n.6, p.377-387, December 2010. Schlueter, A. & Thesseling, F. 2009. Building information model based energy/exergy performance assessment in early design stages. Automation in Construction 18: 153-163. Solid IT. 2012. DB-Engines [Online]. Solid IT. Available: http://db-engines.com/en/ [Accessed 29 Mar. 2014]. Sparrow, B., Liu, J. & Wegner, M. 2011. Google effects on memory: cognitive consequences of having information at our fingerprints. Science, 333(6043): 776-778. Tiwari, S. 2011. Professional NoSQL, John Wiley & Sons. USGBC. 2012. Build Better Codes [Online]. Available: http://www.usgbc.org/sites/default/files/CampBrief_BetterCodes_0.pdf [Accessed 29 May. 2014]. White, S. A. 2008. BPMN modeling and reference guide: understanding and using BPMN, Future Strategies Inc. Yang, Q. & Zhang, Y. 2006. Semantic interoperability in building design: Methods and tools. Computer-Aided Design, 38 (10), 1099-1112. 蔡承諺，2012，應用BIM技術於模板數量計算，碩士論文，國立臺灣大學。鄒年棣，2006，應用有限模擬壓電元件與超音波波傳，碩士論文，國立臺灣大學。林欣瑞，2011，多球體在黏性流的動態模擬，碩士論文，國立臺灣大學。工業技術研究院，2012，導入歐盟建築能源證書可行性分析。
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/55577	-
dc.description.abstract	土木產業隨著時間的發展，越來越多模擬工具誕生以輔助工程師在建築物不同生命週期的工作，並以達到精準以及快速為目標。為了精進模擬工具的精準和快速，過去有相當多模擬工具的研究，大部份的研究皆為透過實測數據和應用建築物模型於模擬工具之模擬結果做比較，或是利用不同模擬工具的結果之間做比較以驗證其新開發模擬工具的演算法之正確性和可信度，藉此使模擬工具更能輔助土木產業變得更加精準和快速，由此可得知實測數據、模擬結果以及模型在驗證模擬工具的重要性。有鑒於實測資料以及模擬成果的重要性，研究人員對於這兩者的需求與日俱增。不過近年來網路快速發展，資訊的交換不再受到地域性的限制，學術研究單位之間的交流相較於過去變得更加頻繁，雖然如此，目前的交流僅限於資料的交換，而不是資料的分享；而且研究成果的發表大部分為透過期刊的發表，但研究成果完成到刊登至期刊時間冗長，而且期刊的發表僅有書面資料不包含實測數據、模擬結果以及模型，研究成果後續的加值少了許多。不過這幾年社群網站的崛起，讓人與人之間的關係變得更加緊密，大數據(Big data)以及資料探勘(Data mining)的技術發展更使得人們更容易找到資訊，甚至是資訊自動找上使用者。現今已經有ResearchGate這被稱為學術研究的專屬社群網站提供分享服務，並且也擁有大量的研究人員使用，ResearchGate也成功讓研究人員使用它的服務達到交流以及讓資訊可以自動找上研究人員的目的，但目前ResearchGate也僅止於分享論文期刊等文字資料，其他實測資料、模型資料、模擬結果這些對於未來研究很有幫助的資料與資訊皆無法一起分享給其他研究人員。有鑒於此，本研究期待可以透過社群網路的力量協助研究人員，透過設計一社群平台當作入口網站，當研究人員需要研究資料以及實測資料時，可以直覺式的想到此社群網站來尋找資料;成為平台使用者後更可以發揮社群的功能，讓資訊自動找上門;研究人員透過本平台獲得研究資訊完成研究後，更可以分享自己的實測資料、模擬結果以及模型，讓資料可以讓更多研究人員做更多加值。更讓研究人員可利用此社群平台針對研究議題、實測資料、模擬結果的討論，各領域專家更可透過此社群平台即時對於研究資源以及研究成果進行驗證。本研究專注於土木領域的模擬工具，為了研究資源之間檔案格式的交換，本研究將採用BIM (Building Information Modeling)技術作為資訊交換的中介媒介，由於土木領域當中模擬工具繁多，所以社群平台初期將實作範圍鎖定能源模擬工具的研究人員作為使用者，針對平台的相容性以及可擴充性兩大特性，設計出一社群網路平台供能源模擬工具研究人員使用。	zh_TW
dc.description.abstract	More and more simulation tools are created to provide more accurate and fast assistance for engineers. The most common way to improve simulation tools is to compare results from simulation tools with actual measurement data or to compare results between different simulation tools for verifying the accurate of simulation tools. As a result, actual measurement data, results from simulation tools, as well as digital models used in the simulation are important elements in improving simulation tools. Although researchers have increasing demands on measurement data, simulation results and models, they have limited channels to exchange the information they need and usually share research outcomes through journal publication which takes time to be reviewed and published. Moreover, journal papers usually do not contain detailed measurement data, simulation results and models, thus the research outcomes cannot be fully reused and value-added. The purpose of this research is to design a social network platform on which researchers can share actual measurement data, simulation results and models to other researchers in civil engineering field. The platform designed in this work allows not only sharing and discussion of actual measurement data, simulation results, and models among researchers but also active and automatic delivery of relevant information to researchers. Because there are a variety of simulation tools in the civil engineering field, the present design of the social network platform focuses on the researchers in the field of building energy simulation as a starting point and the interoperability of the energy simulation tools is addressed. Through increasing the opportunities of sharing and reuse of the actual measurement data, simulation results, and models, the social network platform hopes to increase the added values of these research outcomes and promote collaboration among researchers with common interests.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T04:10:27Z (GMT). No. of bitstreams: 1 ntu-103-R01521605-1.pdf: 5920316 bytes, checksum: dbf310c844d1cbd6641dd264f50229d9 (MD5) Previous issue date: 2014	en
dc.description.tableofcontents	目錄致謝 i 摘要 ii Abstract iv 圖目錄 viii 表目錄 x 第一章緒論 1 1.1 研究背景 1 1.2 研究動機 2 1.3 研究目的 3 1.4 研究方法與流程 3 第二章學術研究及學術社群網站 5 2.1 學術研究資訊需求 5 2.2 研究成果發表 12 2.3 ResearchGate社群網站 14 第三章社群平台分析 20 3.1 平台需求 20 3.2 平台功能模組化 23 第四章社群平台設計 26 4.1 平台架構設計 26 4.2 平台模組設計 28 4.3 平台資料庫 36 第五章社群平台雛形實作與展示 39 5.1 平台實作工具與技術 39 5.2 平台雛形演示 40 第六章結論 43 6.1 整體貢獻 43 6.2 未來展望 44 參考文獻 45
dc.language.iso	zh-TW
dc.title	可分享土木領域實驗資料、模擬結果與模型的社群平台設計	zh_TW
dc.title	Design of Social Network Platform for Sharing Actual Measurement Data, Simulation Results and Models in Civil Engineering Domain	en
dc.type	Thesis
dc.date.schoolyear	102-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	康仕仲(Shih-Chung Kang),邱仁鈿(Jen-Diann Chiou)
dc.subject.keyword	社群網路,資訊分享,建築資訊塑模,BIM,能源分析,	zh_TW
dc.subject.keyword	Social network,information sharing,interoperability,building energy simulation,	en
dc.relation.page	47
dc.rights.note	有償授權
dc.date.accepted	2014-08-21
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	土木工程學研究所	zh_TW
顯示於系所單位：	土木工程學系

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