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研究生:尤志舜
研究生(外文):YOU,CHI-SHUN
論文名稱:無線電信訊號品質之量測與分析
論文名稱(外文):Quality Measurement and Analysis of Wireless Telecommunication Signal
指導教授:楊新雄楊新雄引用關係
指導教授(外文):YANG,HSIN-HSYONG
口試委員:陳巽璋萬欽德吳家琪劉仁俊
口試委員(外文):CHEN,SHIUNN-JANGWAN,CHIN-DEWU,JIA-CHYILIOU,REN-JIUN
口試日期:2017-06-27
學位類別:碩士
校院名稱:國立高雄第一科技大學
系所名稱:電腦與通訊工程系碩士班
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2017
畢業學年度:105
語文別:中文
論文頁數:67
中文關鍵詞:量測訊號
外文關鍵詞:Telecommunication Signal
相關次數:
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  • 下載下載:3
  • 收藏至我的研究室書目清單書目收藏:0
在此論文中,將開發一套能夠分析訊號品質的手機應用程式做為測量工具,並針對量測到的訊號加以分析,作為未來改進與優化基地台配置的參考。因為無線通訊技術的進步與普及,使得通訊科技在生活上的應用迅速的發展,特別是3G/UMTS與4G/LTE高速存取技術的發展,讓無線數據網路的使用更加便利。然而,無線網路的預設效能,與使用者在應用層面上的感受經驗有很大的差距,這些都是因為蜂巢式系統的建置無法達到完美狀態,因此這個課題成為各家無線電信業者非常希望改善,也持續投入大量資源在量測、檢討與改善訊號的品質。鑑於業界對於能有效維持訊號品質的強烈需求,本論文針對無線數據訊號的量測方式與數據存取等技術,開發與建構有效的量測工具,並將量測到的訊號加以分析,另外因為訊號量測點的設定有非常多的可能,所以在動態的量測中,會產生大量的數據,我們將產生的數據以資料倉儲的方式來加以保存。
在本論文中使用Android Studio軟體,開發手機上做為測量工具的應用程式,由於Android Studio軟體具有整合「Gradle」構建工具、編輯頁面與即時預覽等特性,若與常用來開發Android手機應用程式的Eclipse相比,Android Studio軟體在啟動速度、響應速度、內存占用需要花費時間與資源方面佔有優勢,另外,Android Studio軟體具有更快的開發速度,可達到快速開發應用程式的效益。在此論文使此應用程式將採集的數據回傳至資料庫並做分析,利用簡易的方法與通訊上的知識,對市面上常見的電信業者提供的網路服務做比較與分析,讓使用者更簡單瞭解訊號品質的優劣。然而,手機硬體也會影響接收的訊號品質,但經費由於有限,本論文無法對市面上所有手機做訊號品質的比較與分析。

In this thesis a set of cellular-phone-based application program, as a measurement tool, is developed to analyze signal quality of mobile data transmission. The measured signal data are analyzed and could be employed to improve and optimize the base station configuration. Because the progress and popularize of wireless communication technology, the applications of wireless communication technology in life have been rapidly developed. Especially the development of 3G/UMTS and 4G/LTE high-speed access technology enables the use of wireless data networks become more convenient. However, the users experience a big gap of quality performance, in the application level, to the default performance of wireless networks. This is because the construction of the cellular system cannot achieve the perfect configuration, and this issue becomes a variety of wireless carriers who are very much hope to improve. They continue to invest a lot of resources in the measurement, review and improvement of signal quality. Due to the industry's strong demand for effective maintenance of signal quality, in this paper, based on the wireless data signal measurement methods and data access technology, effective measurement tools are developed and constructed to analyze the measured signals. In addition, the signal measurement points set a lot of possibilities, so it will produce a lot of data in the dynamic measurement. The generated data will be saved in the form of data warehouse.
In this thesis, using of Android Studio software, measurement application tools are developed based on mobile phones. Android Studio software has features such as "Gradle" build tools, edit pages and live previews. As compared to Eclipse, which is a commonly software to develop Android phone apps, Android Studio software has advantages in the boot speed, response speed, and the accessing time of memory. In addition, Android Studio software has a shorter development time and can achieve the benefits of rapid implementation of the application programs. Here, the application programs can analyze the collected data that are transmitted back to the database, with a simple approach based on telecommunication theory, to compare and analyze the online services provided by different wireless carriers. This program can help users to understand the merits of signal quality provided by their wireless carriers. However, quality of mobile phone can also affect the quality of the received signal, but due to limitation in fund, this thesis does not compare the signal quality for different mobile phones.

中文摘要 I
Abstract II
致謝 IV
目錄 V
圖目錄 VII
表目錄 IX
第一章 緒論 1
1.1研究背景 1
1.2研究動機 4
1.3研究目的 6
1.4論文架構 6
第二章 訊號量測參數之探討 7
2.1 概述 7
2.2 基地台參數 10
2.3訊號強度參數 13
2.4座標參數 20
第三章 訊號量測工具之建立 24
3.1 概述 24
3.2 前台訊號量測工具 27
3.3 後台伺服器 31
第四章 量測方法與結果分析 36
4.1概述 36
4.2 量測方法 38
4.2 量測結果分析 44
第五章 結論與未來展望 50
參考文獻 51

[1]3rd Generation Partnership Project (3GPP),ttps://en.wikipedia.org/wiki/3GPP.
[2]H. Zarrinkoub, Understanding LTE with MATLAB: From Mathematical Modeling to Simulation and Prototyping. John Wiley & Sons, 2014.
[3]蘇俊吉, ”行動通信的演進歷程” ,財團法人電信技術中心檢測認證實驗室,《科學發展》2015年9月,513期,58 ~ 63頁.
[4]Cell Phone Test Mode Instructions, www.digitalantenna.com,February2015.
[5]Nico Becker, Amr Rizk, and Markus Fidler, “A Measurement Study on the Application-level Performance of LTE,”2014 IFIP Networking Conference, pp, 1-9, Trondheim, Norway, June 2014.
[6]3GPP TS 36.300. “Evolved Universal Terrestrial Radio Access (E-UTRA)and Evolved Universal Terrestrial Radio Access Network (E-UTRAN); Overall description; Stage 2”.
[7]3GPP TS 36.331,“Evolved Universal Terrestrial Radio Access (E-UTRA); Radio Resource Control (RRC); Protocol specification”.
[8]3GPP TR R3.018, “Evolved UTRA and UTRAN; Radio Access Architecture and Interfaces”.
[9]3GPP TS 36.413,"Evolved Universal Terrestrial Radio Access Network (E-UTRAN); S1 Application Protocol (S1AP)".
[10]3GPP TS 36.302,"Evolved Universal Terrestrial Radio Access (E-UTRA); Services provided by the physical layer".
[11]3GPP TS 23.003,”Numbering, addressing and identification”.
[12]工業技術研究院, ”甚麼是SON?” , http://itrison.net/whatisson.html.
[13]Maurizio La Rocca,“RSRP and RSRQ Measurement in LTE– larocca solutions”, training materials, 2015.
[14]Maurizio La Rocca,”RSRQ to SINR Relation – larocca solutions”, laroccasolutions training materials, 2016.
[15]3GPP specification TS 36.133. 3rd Generation Partnership Project;Technical Specification Group Radio Access Network; Evolved Universal Terrestrial Radio Access (E-UTRA); Requirements for support of radio resource management , Sep 2008. Release 8 , version 8.3.0.
[16]3GPP specification TS 36.331. Evolved Universal Terrestrial Radio Access (E-UTRA); Radio Resource Control (RRC); Protocol specification, July 2013. Release 8, version 8.20.
[17]3GPP TS 36.213. 3rd Generation Partnership Project;Technical Specification Group Radio Access Network;Evolved Universal Terrestrial Radio Access (E-UTRA);Physical layer procedures, June 2011.Release 10, version 10.2.0
[18]Moray Rumney, Ryan Pirkl, Markus Herrmann Landmann, and David A. Sanchez-Hernandez,“MIMO Over-The-Air Research, Development, and Testing,”International Journal of Antennas and Propagation, May 2012.
[19]Kaplan,e.d.(1996),Understanding GPS Principle and Application,Artech House,pp.256-260.
[20]黃良吉, 2006 ,GPS與感測器整合於三維地面車輛訂位之應用,台灣科技大學,碩士論文。
[21]趙益生,2004,基於二維微機電慣性元件定位系統之初步研究,成功大學,碩士論文。
[22]Vincenty's formulae , http://en.wikipedia.org/wiki/Vincenty%27s_formulae.
[23]Android ,https://www.android.com.
[24]Open Handset Alliance, https://www.openhandsetalliance.com.
[25]Techcrunch, Ingrid Lunden,” Android, Led By Samsung, Continues To Storm The Smartphone Market, Pushing A Global 70% Market Share”, Jul 1, 2013
[26]Smieh Date,”Anatomy Physiology of an Android”, 29 June 2012.
[27]Android Developers,https://developer.android.com/studio/index.html.
[28]Android Studio, ”為Android訂製的IDE” ,https://blog.chengbo.net.May, 2013.
[29]張益裕, 2016,Android 6 Tutorial 第四堂(2)設計地圖應用程式- Google Maps Android API v2, http://www.codedata.com.tw/mobile/android-6-tutorial-4-2/。
[30]F Di Tria, E.Lefons, and F.Tangorra, “Design process for Big Data Warehouses,”International Conference on Data Science and Advanced Analytics, pp. 512-518, 2014.
[31]J. Gao, L. Lei, and S. Yu, “Big Data Sensing and Service: A Tutorial,” IEEE First International Conference on Big Data Computing Service and Applications, pp. 79-88, 2015.
[32]Raymond Gardiner Gossand Kousikan Veeramuthu, “Heading Towards Big Data,” 24th Annual SEMI Advanced Semiconductor Manufacturing Conference, pp. 220-225, 2013.
[33]Lihua Sun,Mu Hu,Kaiyin Ren,and Mingming Ren,“Present Situation and Prospect of Data Warehouse Architecture under the Background of Big Data,”International Conference on Information Science and Cloud Computing Companion,pp. 529-535, 2013.
[34]Han Hu,Yonggang Wen,Tat-Seng Chua,and Xuelong Li,“Toward Scalable Systems for Big Data Analytics: A Technology Tutorial,”IEEE Access, v. 2, pp. 652-687, 2014.
[35]鳥哥的Linux 私房菜, ”什麼是 Linux ?” , http://linux.vbird.org/linux_basic/0110whatislinux/0110whatislinux.php.
[36]Ubuntu, https://zh.wikipedia.org/wiki/Ubuntu.
[37]Apache HTTP Server Ohloh.net, https://www.openhub.net/p/apache.
[38]MySQL 5.1 Reference Manual, Oracle , ”What is MySQL” , https://dev.mysql.com/doc/refman/5.7/en/what-is-mysql.html, September 2012.
[39]PHP 手冊,” 序言 ”, http://www.php.net/manual/zh/preface.php.
[40]XAMPP, https://www.apachefriends.org/zh_tw/index.html.
[41]Stonebraker M, Abadi D J, DeWitt D J, Madden S, Paulson E, Pavlo A, Rasin A,“MapReduce and parallel DBMSs: friends or foes?” Communications of the ACM, v.53, no. 1, pp.64-71, 2010.
[42]Dean J, Ghemawat S, “MapReduce: A flexible data processing tool” , Communications of the ACM, v.53, no. 1,pp. 72-77, 2010.
[43]Azza Abouzeid, Kamil Bajda-Pawlikowski, Daniel J Abadi,Alexander Rasin, Avi Silberschatz, “HadoopDB: An architecturalhybrid of MapReduce and DBMS technologies for analyticalworkloads,”Proceedings of the 35th International Conference on VeryLarge Data Bases(VLDB.09). VLDB Endowment, vol.2, pp 922-933, Sep 2009.
[44]MySQL Applier for Hadoop, https://dev.mysql.com/tech-resources/articles/mysql-hadoop-applier.html
[45]MySQL Applier For Hadoop: Real time data export from MySQL to HDFS, http://innovating-technology.blogspot.tw/2013/04/mysql-hadoop-applier-part-1.html
[46]MySQL Applier For Hadoop: Implementation, http://innovating-technology.blogspot.tw/2013/04/mysql-hadoop-applier-part-2.html.

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