臺灣人文及社會科學引文索引資料庫系統

:::

詳目顯示

回上一頁
第 1 筆 / 總合 1 筆   第一頁 上一頁 下一頁 最後一頁
/1
題名:無線感測網路(ZIGBEE)文獻發展的趨勢、類別與熱點之探討:使用文獻內容書目對與共現字以發掘研究問題的機會
作者:魏淑娟
作者(外文):WEI,SHU-CHUAN
校院名稱:朝陽科技大學
系所名稱:企業管理系台灣產業策略發展博士班
指導教授:賴奎魁
陳悅琴
學位類別:博士
出版日期:2022
主題關鍵詞:無線感測網路趨勢類別熱點概觀分析書目對共現字Wireless Sensor NetworkZigbeeTrendClustersHot TopicsOverviewBibliographic CouplingCo-Word
原始連結:連回原系統網址new window
相關次數:
  • 被引用次數被引用次數:期刊(0) 博士論文(0) 專書(0) 專書論文(0)
  • 排除自我引用排除自我引用:0
  • 共同引用共同引用:0
  • 點閱點閱:0
智慧街燈的發展是智慧城市中多議題中之一個有趣新興議題,在企業界與學術界永續發展的目標中,皆已投入甚多基礎與應用研究,研究成果皆已撰述為論文或專利文件,投稿期刊或各國智慧財產專利局,歷經多位同儕盲目審查,經公開發表或取得核准且具排他權之著作權或專利。這些成果揭示與時俱進的新知識,促進學術界與業界技術研發的快速擴散,皆已收錄在電子資料庫中,在學界如 WOS、Scopus、 Elsevier;在業界如各國專利資料庫 USPTO、EDO 等。這些電子資料庫在顯示各種領域系統化知識,已儼然成為全人類社會的資產。然在智慧街燈的研究與開發中,含有多項次技術領域,本研究旨在探討無線感測網路(Zigbee)論文科學性論文文獻計量分析。過去文獻停留在傳統調查性之質性內容分析或計算前後數年前間比率的簡易計量分析,顯然對投入學術與產業研究者所需精確專業領域資訊,付之闕如。若能採用使用文獻內容書目對及共現字之科學性計量分析以發掘研究問題的機會,如文獻發展的趨勢、類別與熱點等變項分析,應可提供創造一個新的有效性的研究問題來增強研發前沿的機會。
本研究目的在建立一個探討文獻內容發展的趨勢分析模型,並使用 CATAR 內容分析模型做為發掘無線感測網路(Zigbee)文獻發展發展的趨勢、類別與熱點分析。本研究第一階段採用檢全原則,建立相關鍵字,進行檢索 WOS 資料庫,接著使用檢準原則,經過篩選資料清洗以取得具高效信度分析資料集。再以統計分析,建構文獻內容的概觀模型。再使用文獻書目對與共現字之相似以形成相似矩陣,再以數與構面觀念,使用奇異值分解 (Singular Value Decomposition; SVD)進行相似矩陣分析,再使用階層式凝聚合之完全連鎖法(Hierarchical-Agglomerative-Complete Clustering)集群分析方法以進行文獻的主題集群分析,再以 HHI來鑑別出研究主題的熱點。
分析結果揭出期刊、國家、年代之發展趨勢之競爭態勢。另也區分出七個主題群與七個共現字群,且兩者間有很強的共通性,少數個獨特性。是故;此研究架構與流程能發掘研究的前沿(Frontier)之內在與外在效度。
Continuous innovation is the foundation of both business and academic career preservation. The development of smart street lights is becoming one of the most interesting modernization tools in smart cities. A lot of basic and applied research has been invested in achieving sustainable development in business and academic circles. The results of these studies have been published in academic papers or patent documents, submitted to journals or intellectual property patent offices of various countries, and after blind review by many peers, they were published copyrights or the patents were approved with exclusive rights. These achievements revealed new knowledge that helped businesses to keep pace with the times. To promote the rapid diffusion of technology research and development, they have been included in the electronic databases of the academia, e.g., WOS, Scopus, and Elsevier, and in the industry, e.g., the national patent databases including USDTO and EDO. These electronic databases contain systematic knowledge in various fields and have become the assets of the entire human society. However, in the research and development of smart street lights, many technical fields can be found. The present study explores the bibliometric analysis of scientific papers on wireless sensor networks (ZIGBEE). In the past, the literature mainly focused on the traditional qualitative content analysis of investigative nature or simple quantitative analysis of calculating the ratio between the years and the years before and after, which lacked the accurate professional field information required by academic and industrial researchers. If the scientific quantitative analysis using bibliographic pairs and co-occurrence words of literature content can be used to explore opportunities for research problems, such as the analysis of variables including trends, categories, and hot topics of literature development, it could provide a new and effective research problem to enhance opportunities at the forefront of R&D.
The CATAR content analysis model was used to explore the trends, categories, and hot topics in the development of the wireless sensor network (ZIGBEE) literature. The first stage of this research adopted the principle of verification, established relevant keywords, searched the WOS database, and used the principle of verification to obtain a data set with high reliability after screening and data cleaning. Statistical analysis was then used to construct an overview model of the literature content. After, the similarities between bibliographic pairs and co-occurring words were identified to form a similarity matrix, and then reduce the variation.
Additionally, the number and aspect concept and the SVD (Singular Value Decomposition) were employed to conduct a similarity matrix analysis. Next, the Agglomerative Hierarchical Clustering method was used to perform a subject cluster analysis of the literature. Finally, the HHI was utilized to identify the hot topics of research themes.
The analysis results showed the competitive situation of the development trends of journals, countries, and years. In addition, seven theme groups and seven co-occurring word groups were distinguished, and it was found that there is a strong commonality between the two; however, a few are unique. Therefore, this research structure and the process could explore the internal and external validity of the research frontier.
(1)王世偉、張建明(2014)。上海市公務員智慧城市知識讀本。上海:上海社會科學院出版社。
(2)王輝(2012)。智慧城市。北京:清華大學出版社。
(3)吳余龍、艾浩君(2011) 。智慧城市:物聯網背景下的現代城市建設之道。北京:電子工業出版社。
(4)吳勝武、閆國慶(2010)。智慧城市 技術推動和諧。杭州:浙江大學出版社。
(5)呂康捐、帥萍、孫覃玥(2015)。世界智慧城市案例:實踐與經驗。北京:社會科學文獻出版社。
(6)李賢毅(2012)。智慧城市開啟未來生活─科學規劃與建設。北京:人民郵電出版社。
(7)林欽榮(2013)。智慧城市國際發展與臺灣邁向智慧城市發展策略。國土資訊系統通訊,86,10-22。
(8)陈国强 、赵俊伟、黄俊杰與刘万里(2005) 。 基于 MATLAB 的 AR 模型参数估计 (DOCTORAL DISSERTATION) 。
(9)原友蘭、曾元顯與何昶鴛 (2019) 。運用自動內容分析技術探析觀光與旅遊領域研究主題與趨勢,戶外遊憩研究, 32(1), 1-32。
(10)張桂鳳(2010)。打造智慧城市,高雄邁向新未來。建築師。36(12),138-142。
(11)符碧真 (2007)。 大學教學與評量方式之研究。論文發表於國立台灣師範大學教育評鑑發展研究中 {I 舉辦之 [台灣高等教育資料庫之建置及相關議題之探討一第二階段成果報告研討會 ,台北市。
(12)莊奕琪(2004)。藍芽革命:顛覆未來生活的無線通訊技術。台北市:書泉。
(13)許巍瀚(2014)。台灣智慧城市治理架構與策略研擬之研究。碩士論文。國立政治大學地政研究所,台北市。
(14)陳光華、陳雅琦(2001) 。臺灣人文學引用文獻資料庫之建置。圖書館學與資訊科學, 27(1) 。
(15)陳綺萱(2019)深。度學習之專利分析研究,碩士論文。國立臺灣師範大學圖書資訊學研究所。台北市。
(16)曾元顯(2011)。文獻內容探勘工具-CATAR-之發展和應用,。圖書館學與資訊科學, 37(1)。
(17)曾元顯, & 林瑜一. (2011). 。內容探勘技術在教育評鑑研究發展趨勢分析之應用. 。教育科學研究期刊, 56(1), 129-166。.
(18)曾祐強、劉顯仲 (2001) 。 磷酸鋰鐵電池發展趨勢 – 學術論文之主路徑分析。國立台灣科技大學科技管理研究所。碩士論文,台北 。取自https://ndltd.ncl.edu.tw/cgi-bin/gs32/gsweb.cgi/ccd=VQMSIP/search#XXX。
(19)程意惟、劉顯仲 (2018) 。利用主路徑分析法探討新科技技術演變之管理意涵: 以石墨烯專利發展趨勢為例。 國立台灣科技大學科技管理研究所碩士論文 。台北 。
(20)黃慕萱、張郁蔚 (2006)。人文社會學者學術評鑑指標之探討.。 圖書資訊學刊, 4(1/2), 17-47。
(21)劉淑慧編著(2016)。《變易的力量:E時代的生涯籌劃》。國立彰化師範大學華人生涯研究中心設計,張老師文化出版。
(22)熊璋(2015)。智慧城市。北京:科學出版社。
(23)賴長治、 劉顯仲 (2013) 。染料敏化太陽能電池之主路徑分析。國立台灣科技大學科技管理研究所碩士論文,台北 。
(24)羅文瑜、劉顯仲 (2021)。 以主路徑分析觀點探索敏捷軟體開發學術研究之發展軌跡。 國立台灣科技大學科技管理研究所,台北。
(25)羅仕炫、林獻堂(2003)。感測器原理與應用(含實驗)。台北市:新文京。
(26)邵軒磊、曾元顯 (2018)。文字探勘技術輔助主題分析—以 [中國大陸研究] 期刊為例。問題與研究, 57(1), 29-62。
(27)蔡明月 、 李旻嬑 (2013)。臺灣社會科學引用文獻分析研究。教育資料與圖書館學, 50(3), 293-317。

(1)Diana, L. A.& Leydesdorff, L. (2008) Main-Path Analysis and Path-Dependent Transitions in HistCiteTM-Based Historiograms. Journal of the Association for Information Science and Technology, 59, pp.1948-1962.
(2)Aksoy, T. & Celik, S. & Gulsecen, S. (2020). Data Pre-Processing in Text Mining. 10.26650/B/ET06.2020.011.07.
(3)Akyildiz, I. F., Su, W., Sankarasubramaniam, Y., & Cayirci, E. (2002). A survey on sensor networks. IEEE Communications magazine, 40(8), pp.102-114.
(4)Akyildiz, I. F., Su, W., Sankarasubramaniam, Y., & Cayirci, E. (2002). Wireless sensor networks: a survey. Computer networks, 38(4),pp. 393-422.
(5)Anderson, P., & Tushman, M. L. (1990). Technological Discontinuities and Dominant Designs: A Cyclical Model of Technological Change. Administrative Science Quarterly, 35(4), pp.604–633.
(6)Back, B. B., Baker, M. D., Ballintijn, M., Barton, D. S., Becker, B., Betts, R. R., ... & Phobos Collaboration. (2005). The PHOBOS perspective on discoveries at RHIC. Nuclear Physics A, 757(1-2),pp. 28-101.
(7)Batagelj, V. (2003). Efficient algorithms for citation network analysis. arXiv preprint cs/0309023.
(8)Borgman, C. L. (1989). Bibliometrics and scholarly communication: Editor's introduction. Communication Research, 16(5), pp.583-599.
(9)Borgman, C. L., & Furner, J. (2002). Scholarly communication and bibliometrics. Annual review of information science and technology, 36(1), pp.2-72.
(10)Bornmann, L., & Haunschild, R. (2022). Empirical analysis of recent temporal dynamics of research fields: Annual Publications inchemistry and related areas as an example. Journal of Informetrics, 16(2), pp.101253.
(11)Bornmann, L., & Mutz, R. (2015). Growth rates of modern science: A bibliometric analysis based on the number of Publications andcited references. Journal of the Association for Information Science and Technology, 66(11), pp.2215-2222.
(12)Boyack, K.W., Klavans, R. and Börner, K. (2005) .Mapping the Backbone of Science. Scientometrics, 64, pp.351-374.
(13)Callaway,Ed. et al. (2002). Home networking with IEEE 802.15.4: A developing standard for low-rate wireless personal area networks. IEEE Communication Magazine, 40(8),pp.70-77.
(14)Callon, M. (1986). The sociology of an actor-network: The case of the electric vehicle. In Mapping the dynamics of science and technologyPalgrave. Macmillan, London. pp. 19-34.
(15)Cambrosio, A., Limoges, C., Courtial, J., & Laville, F. (1993). Historical scientometrics? MappinBorgman, C. L., & Furner, J. (2002). Scholarly communication and bibliometrics. Annual review of information science andtechnology, 36(1), pp.1-53.
(16)Cambrosio, A., Limoges, C., Courtial, J., & Laville, F. (1993). Historical scientometrics? Mapping over 70 years of biological safety research with coword analysis. Scientometrics, 27(2), pp.119-143.
(17)Carass, A., Roy, S., Gherman, A., Reinhold, J. C., Jesson, A., Arbel, T., Maier, O., Handels, H., Ghafoorian, M., & Dlatel, B. (2020). Evaluating white matter lesion segmentations with refined Sørensen-Dice analysis. Scientific reports, 10(1), pp.1-19.
(18)Chang, Y. H., Chang, C. Y., & Tseng, Y. H. (2010). Trends of science education research: An automatic content analysis. Journal of Science Education and Technology, 19(4), pp.315-331.
(19)Chapman, G. A., Moores, K., Harrison, D., Campbell, C. A., Stewart, B. R., & Strijbos, P. J. (2000). Fractalkine cleavage from neuronal membranes represents an acute event in the inflammatory response to excitotoxic brain damage. Journal of neuroscience, 20(15), pp.RC87-RC87.
(20)Chipcon. (2003). CC2420 2.4GHz IEEE 802.15.4 / Zigbee RF Transceiver. Chipcon as SmartRF CC2420 Dreliminary Datasheet, Rev. 1.0, pp.1-85.
(21)Chris, E.D. (2003) Bzzzz zzz: ZigBee wireless standard. IEE Review. Vol. 49. Issue 3. pp.28~31.
(22)Dai, S., Duan, X., & Zhang, W. (2020). Knowledge map of environmental crisis management based on keywords network and co-word analysis, 2005–2018. Journal of Cleaner production, 262, pp.121-168.
(23)Dice, L. R. (1945). Measures of the amount of ecologic association between species. Ecology, 26(3), pp.297-302.
(24)Dinski, G., & Narin, F. (1976). Citation influence for journal aggregates of scientific publications: Theory, with application to the literature of Physics. Information Processing & Management, 12(5), pp.297- 312.
(25)Draper, N.R. and Smith, H. (1981) Applied Regression Analysis. 2nd Edition, John Wiley & Sons, New York.
(26)Callaway,E.,et al. (2002). Home networking with IEEE 802.15.4: A develoDing standard for low-rate wireless personal area networks. IEEE Communication Magazine, vol 40,no.8,pp.70-77.
(27)Ergen, S. C. (2004). ZigBee/IEEE 802.15.4 Summary.
(28)Evans, C. (2003). Bzzzz zzz [ZigBee wireless standard]. IEE review, 49(3), pp.28-31.
(29)Feldman, R. & Sanger, J. (2006). The text mining handbook: Advanced approaches in analyzing unstructured data, Cambridge University Press, Cambridge.
(30)Ferreira, F. A. (2018). Mapping the field of arts-based management: Bibliographic coupling and co-citation analyses. Journal of Business Research, 85, pp.348-357.
(31)Garfield, E., & Sher, I. H. (1963). New factors in the evaluation of scientific literature through citation indexing. American documentation, 14(3), pp.195-201.
(32)Glänzel, W., & Czerwon, H. (1996). A new methodological approach to bibliographic coupling and its application to the national, regional and institutional level. Scientometrics, 37(2), pp.195-221.
(33)Grotjohann, T., Testa, I., Leutenegger, M., Bock, H., Urban, N. T., Lavoie-Cardinal, F., ... & Hell, S. W. (2011). Diffraction-unlimited all-optical imaging and writing with a photochromic GFP. Nature, 478(7368), pp.204-208.
(34)Henderson, A. (2005). Organisational identities and rationalities: A rhetorical and discourse analysis of organisational communication about genetic modification in the New Zealand kiwifruit and dairy industries (Thesis, Doctor of Philosophy (PhD)). The University of Waikato, Hamilton, New Zealand. Retrieved from https://hdl.handle.net/10289/12910
(35)Heng Chih Huang, Yueh Min Huang and Jen Wen Ding. (2006). An ImDlementation of Battery-aware Wireless Sensor Network Using ZigBee for Multimedia Service. International Conference on Consumer Electronics, pp. 369-370.
(36)Huang, H.C.,Huang,Y.M., & Ding,J.W. (2006). An Implementation of Battery-aware Wireless Sensor Network Using ZigBee for Multimedia Service. International Conference on Consumer Electronics, pp.369-370.
(37)Hummon, N. P., & Dereian, P. (1989). Connectivity in a citation network: The development of DNA theory. Social networks, 11(1), pp.39-63.
(38)Akyildiz,I.F.,et al. (2002). A Surver on Sensor Networks. IEEE Communications Magazine, vol.40,pp.102-114,Aug.
(39)J. T. Adams. (2006). An Introduction to IEEE STD 802.15.4, IEEE Aerospace Conference, 8 , pp.4-11.
(40)Lee,J.S. (2005). An experiment on performance study of IEEE 802.15.4 wireless networks. The 10th IEEE Conference on Emerging Technologies and Factory Automation, pp. 451-458, 19-22 .
(41)Sohrabi,K. & Dottie,G.J.(1999) . Performance of a novel selforganization Drotocol for wireless ad hoc sensor networks. in Droc. Of the IEEE 50th Vehicular Technology Conference, 1999,pp.1222-1226.
(42)Sohrabi,K., et al.( 2000) . Protocols for self-organization of a wireless sensor network. IEEE Personal Communications, pp. 16-27.
(43)Kahn, J.M. & Fellow, R. & Kristofer,P. (1999). Next Century Challenges: Mobile Networking for "Smart Pust". 10.1145.313451.313558.
(44)Kessler, M. M. (1963). Bibliographic cou]pling between scientific papers. American documentation, 14(1), pp.10-25.
(45)Klaus,K (2004). Reliability in Content Analysis. Human Communication Research. 30.pp. 411 - 433.
(46)Kuhn, T. S. (1962). The structure of scientific revolutions. University of Chicago Press: Chicago.
(47)Lijesen, M. G. (2004). Adjusting the Herfindahl index for close substitutes: an application to pricing in civil aviation. Transportation Research Part E: Logistics and Transportation Review, 40(2), pp.123-134.
(48)Diana,L.A. & Loet,L. (2008). Main-Path Analysis and Path-Dependent Transitions in HistCite™-Based Historiograms. Journal of The American Society for Information Science and Technology - JASIS. 59. pp.1948-1962.
(49)Suva,M., Correia,A., Gano,A.J., Campos,A.M.& Teixeira,I. (2005). Wireless intelligent sensor modules for home monitoring and control. IEEE International, pp. 110-115, 1-3 September.
(50)Maraiya, K., Kant, K., & Gupta, N. (2011). Application based study on wireless sensor network. International Journal of Computer Applications, 21(8), pp.9-15.
(51)National Semiconductor. (2000). LM35 Precision Centigrade Temperature Sensors.
(52)Neelakanta, D.S.,& Pighe, H. (2003) .Robust factory wireless communications: a Performance appraisal of the Bluetoogh and the Zigbee collocated on an industrial floor. IECON‘03. The 29 th Annual conference of the IEEE,3,pp.2381-2386.
(53) Aakvaag,N., Mathiesen,M. & Thonet,G.(2005) Timing and Power Issues in Wireless Sensor Networks - an Industrial Test Case. International Conference on Parallel Processing Workshops, pp. 419-426
(54)Lin,S. et al. (2007). ZigBee Based Wireless Sensor Networks and Its Alicappions in Industrial. in Droc. Of the IEEE International Conference on Automation and logistics, August pp.18-21.
(55)Ed,N. & Clara,C.M. (2009). Applying bibliometric mapping in a high level science policy context : Mapping the research areas of three putch Universities of Technology. Scientometrics. 79. pp.261-275.
(56)Nuvolari,A & verspagen, B. (2009). Technical choice, innovation, and British steam engineering, 1800–501. The Economic History Review. 62. Pp.685 - 710.
(57) Feldman,R. & Sanger,J. (2006). The Text Mining Handbook: Advanced Approaches in Analyzing Unstructured Data, Cambridge University Press, Cambridge.
(58)Meyer,S. and Rakotonirainy,A (2003). A Survey of Research on Context Aware Homes. Proceedings of the Australasian information security workshop Conference on ACSW frontiers, pp. 159-168.
(59)Sivadas, E., & Johnson, M. S. (2005). Knowledge flows in marketing: an analysis of journal article references and citations. Marketing Theory, 5(4), pp.339-361.
(60)Slaughter, S., & Leslie, L. L. (1997). Academic capitalism: Politics, policies, the entrepreneurial university.
(61)Sohrabi, K., Gao, J., Ailawadhi, V. & Pottie, G.J.. (2000). Sohrabi, K.: Protocols for self-organization of a wireless sensor network. IEEE Personal Communications 7(5), 16-27. Personal Communications, IEEE. 7. 16 - 27. 10.1109/98.878532.
(62)Dam, T. V. & Langendoen,K.(2011) An Adaptive Energy-Efficient MAC Protocol for Wireless Sensor Networks. Conference On Embedded Networked Sensor Systems Proceedings of the 1st International Conference on Embedded Networked Sensor Systems, pp. 171-180.
(63)Zheng,T., Radhakrishnan,S. &Sarangan,V.(2005) DMAC:An Adaptive Energyefficient MAC protocol for Wireless Sensor Networks. proceedings of the 19th IEEE International parallel and Distributed processing Symposium, pp. 65-72.
(64)Tseng, C.C. (2013). Connecting self-directed learning with entrepreneurial learning to entrepreneurial performance. International Journal of Entrepreneurial Behaviour & Amp Research. 19. pp425-446.
(65)Tseng, Y. H.& Chang, C.-Y. & Tutwiler, M. & Lin, M.-C. & Barufaldi, J. (2013). A scientometric analysis of the effectiveness of Taiwan’s educational research projects. Scientometrics. 95. pp.1007.
(66)Tseng, Y. H., & Tsay, M. Y. (2013). Journal clustering of library and information science for subfield delineation using the bibliometric analysis toolkit: CATAR. Scientometrics, 95(2), pp.503-528.
(67)Ye,W., Heidemann,J. & Estrin,D .(2022). An Energy-Efficient MAC Protocol for Wireless Sensor Networks. Twenty-First Annual Joint Conference of the IEEE Computer and Communications Societies , pp. 1567-1576, 23-27.
(68)Wallin, J. A. (2005). Bibliometric methods: Pitfalls and Possibilities. Basic & clinical Pharmacology & toxicology, 97(5), pp.261-275.
(69)Waltman, L., & Schreiber, M. (2013). On the calculation of Percentile‐ based bibliometric indicators. Journal of the American Society for Information Science and Technology, 64(2), pp.372-379.
(70)Yick, J., Mukherjee, B., & Ghosal, D. (2008). Wireless sensor network survey. Computer Networks, 52(12), pp.2292-2330.
(71)Yuan, M., Cross, S. J., Loughlin, S. E., & Leslie, F. M. (2015). Nicotine and the adolescent brain. The Journal of physiology, 593(16), pp.3397–3412.
(72)Yuan, Y. Y., Tseng, Y. H., & Chang, C. Y. (2014). Tourism subfield identification via journal clustering. Annals of Tourism Research, 47, pp.77-80.
(73)Yuan, Y., Gretzel, U., & Tseng, Y. H. (2015). Revealing the nature of contemporary tourism research: Extracting common subject areas through bibliographic coupling. International Journal of Tourism Research, 17(5), pp.417-431
(74)Zigbee Alliance. (2004). ZigBee Specification. ZigBee Alliance Board of Directors, Document number: 053474r06, Rev. 1.1, 1-378.

 
 
 
 
第一頁 上一頁 下一頁 最後一頁 top
QR Code
QRCODE

臺灣人文及社會科學引文索引資料庫

目前上線人數:760(臺灣:746,外國:14) / 本年度總使用人次:1885225 / 訪客人次(自102年09月):67693869
國家圖書館著作權聲明 Copyright © 2013 All rights reserved.
本館地址: 100201臺北市中山南路20號. 本館地圖及交通資訊
總機:(02)23619132.最佳瀏覽解析度為1024x768以上