博碩士論文 965303023 詳細資訊




以作者查詢圖書館館藏 以作者查詢臺灣博碩士 以作者查詢全國書目 勘誤回報 、線上人數:22 、訪客IP:18.220.116.34
姓名 黃昆輝(Huang Kun)  查詢紙本館藏   畢業系所 通訊工程學系在職專班
論文名稱 利用粒子群優化演算法改善分群演算法在訊號分群上之應用
(To use Particle Swarm Optimization improve K-means Perform Mathematical Calculations in Clustering of Signal Group)
相關論文
★ Branch and Bound 演算法在全光網路包含串音局限的限制條件之最佳化規劃效能分析★ 平行式最佳區塊碼解碼演算法
★ 數位廣播之視訊系統架構與信號估測★ 粒子群優化演算法應用於電信業解決方案選商及專案排程之優化
★ 結合PSO及K-Means聚類分析演算法的圖像分割★ 應用模糊聚類與粒子演算法之色彩分群研究
★ 粒子群優化演算法應用於企業更新數據網路採購之優化★ 粒子群演算法應用於無線區域網路產品硬體開發成本優化
★ 粒子群演算法應用企業伺服器負載平衡之省電優化★ 粒子群優化演算法應用於瓦斯業微電腦瓦斯表自動讀表之優化
★ 近場通訊之智慧倉儲管理★ 在Android 平台上實現NFC 室內定位
★ 適用於訊號傳輸暨無線電力傳輸之設計★ 結合PSO及圖像品質評估演算法識別頻譜訊號
★ 粒子群優化與二維Otsu演算法於影像二元化閥值選取研究★ 利用A*解碼法應用到線性區塊碼的最大可能性解碼之研究
檔案 [Endnote RIS 格式]    [Bibtex 格式]    [相關文章]   [文章引用]   [完整記錄]   [館藏目錄]   至系統瀏覽論文 ( 永不開放)
摘要(中) 近年在無線通訊產業的蓬勃發展下,各無線系統也因為技術的突破與量產的實現下,現在無線產品已經廣泛的涵蓋在各種的生活應用上,如現有的手機、電腦、以及新世代研發的數位家電等等,硬體建設上如台北市地方政府建構的WIFLY,跟台北捷運文湖線,以及各學校教育單位在校區內的WIFI,無線系統的應用現在已經大量充斥在生活週遭的各個角落。但是相對的RF頻帶的使用上,在涵蓋的區域及訊號的強弱適當與否,或者甚至於該區域上的監測,皆是各系統在架設起來後需要去維護與管控的。因為各種系統的訊號涵蓋在整個環境的周圍,要如何去評估區分訊號便是本論文深入研究的部分與目的。
粒子群優化演算法(Particle Swarm Optimization),簡稱為PSO,此演算法效果具有收斂且運算快速的特性,是解決與應用在進世代類神經網路的研究與最佳化問題上的好方法。PSO在群體內的各粒子間,有著交互訊息溝通的特點,在相關性上可以提供相當適當的資訊,並且具有參數設定少、搜尋速度快、執行實現度高的優點。本論文主題則是以此,強化分群演算法(K-Means)的各粒子在群體間的相關性,提供足夠的權重以適當進行判斷、修正訊號在統計群體內正確的位置,並結合圖資系統呈現視覺化效果來呈現。
摘要(英) Because the flourishing development of the wireless communication industry during these years , realization that every wireless system has because of break-through and quantity of technology too , the wireless products have been already extensive use in various life , existing mobile phone, computer, and new to research and develop generation digit of the Electrical home appliances , etc. Build WIFLY constructed of the Taipei local government on the construction of hardware , and Taipei MRT of Wenhu(文湖) Line , and WIFI in many school education , the wireless system application use in a large amount now . But in RF frequency band use , signal power of area contained appropriate or not , or the monitoring on this area , there were every system that needed to maintain and in charge of accusing after erecting . Because various system of signals contain whole around the environment , this thesis further investigates how to go to assess the signal of classify .
Particle Swarm Optimization (PSO) , it has convergence and fast operation of characteristic that this performs algorithms , this is a good method on the optimization problem generation that solve and apply to the research of neural networks . Every particle in the colony of PSO , There is mutual information communication characteristic , it can offer appropriate information on relevance , and also parameters are set up less 、 fast to search 、 easy to realized . This thesis theme use this to improve K-Means particles relevance among the colonies , offer enough weights by appropriately judging 、 revision of correct signal position in the colony , and combine map system to appear vision result .
關鍵字(中) ★ 分群演算法
★ 利用粒子群優化演算法
★ 模糊決策
★ 群體智能
關鍵字(英) ★ Swarm Intelligence
★ Fuzzy Decision
★ PSO
★ K-Means
論文目次 摘 要................................................................................................................................................................ 一
ABSTRACT .......................................................................................................................................................... 2
誌 謝.................................................................................................................................................................. 4
目 錄...................................................................................................................................................................... I
圖 目 錄............................................................................................................................................................... II
第一章 緒 論................................................................................................................................................... 1
1.1 研究動機............................................................................................................................................. 1
1.2 研究目的............................................................................................................................................. 2
1.3 論文架構............................................................................................................................................. 3
第二章 利用粒子群優化演算法提供權重影響分群演算法分群決策.......................................................... 6
2.1 分群演算法介紹................................................................................................................................. 6
2.2 粒子群優化演算法介紹...................................................................................................................... 8
2.3 粒子群優化演算法改善分群演算法介紹........................................................................................ 11
第三章 利用C語言模擬演算法的實行步驟................................................................................................ 17
第四章 比較使用粒子群優化演算法改善後的結果.................................................................................... 20
第五章 延伸應用........................................................................................................................................... 26
5.1 多階層式訊號搜尋............................................................................................................................ 26
5.2 調適性智能學習參數........................................................................................................................ 27
5.3 記憶型人工智慧學習法.................................................................................................................... 28
參考文獻.............................................................................................................................................................. 29
參考文獻 [1] Eberhart, R.C. and J. Kennedy, “A new optimizer using particle swarm theory. in Proceedings of the Sixth International Symposium on Micro Machine and Human Science.”, Nagoya, Japan.1995.
[2] Vance Faber, “Clustering and the Continuous k-Means Algorithm” , Los Alamos Science, Number 22 1994
[3] Jason Tillett1, T.M. Rao2, Ferat Sahin3 and Raghuveer Rao3 , “Darwinian Particle Swarm Optimization” , University of Rochester Rochester , NY USA
[4] Xiaohui Cui, Thomas E. Potok , “Document Clustering Analysis Based on Hybrid PSO+K-means Algorithm”, Applied Software Engineering Research Group, Computational Sciences and Engineering Division, Oak Ridge National Laboratory, Oak Ridge, TN 37831-6085, USA
[5] Gereon Frahling , Christian Sohler , “A fast k-means implementation using coresets “, Heinz Nixdorf Institute and Department of Computer Science University of Paderborn D-33102 Paderborn, Germany , December 5, 2005
[6] J. Macqueen , “Some methods for classification and analysis of multivariate observations” , University of California , Los Angeles
[7] Andrew W. Moore , “K-means and Hierarchical Clustering” , Professor School of Computer Science Carnegie Mellon University
[8] Timothy Verbeemen , Gert Storms , Tom Verguts , “Varying Abstraction in Categorization: a K-means Approach” , Departement Psychologie, University of Leuven
[9] Marco A. Montes de Oca , “Particle Swarm Optimization Introduction” , IRIDIA-CoDE, Universit´e Libre de Bruxelles (U.L.B.) May 7, 2007
[10] Xiaohui Cui, Thomas E. Potok , Paul Palathingal , “Document Clustering using Particle Swarm Optimization” , Applied Software Engineering Research Group Computational Sciences and Engineering Division
[11] Kiri L. Wagstaff , Benjamin Bornstein , “K-means in Space: A Radiation Sensitivity Evaluation” , Jet Propulsion Laboratory, California Institute of Technology, 4800 Oak Grove Drive, Pasadena, CA 91109 USA
[12] Ching-Han Chen , “Particle Swarm Optimization” , I-Shou University 2006-06-06
[13] 楊正宏 , 蕭智仁 , 莊麗月 , “K-means 結合混沌PSO 應用於資料分群問題” , 第二十屆國際資訊管理學術研討會 , ICIM2009
[14] 李維平 , 黃郁授 , 戴彰廷 , “自適應慣性權重改良粒子群演算法之研究” , 中原大學資訊管理所
[15] 陳同孝, 陳雨霖 , 劉明山 , 許文綬 , 林志強 , 邱永興 , “結合K-means及階層式分群法之二階段分群演算法” , 國立臺中技術學院 資訊科技與應用研究所
[16] 陳振雄 , 謝政勳 , “雷達回波訊號來向角之定位” , 建國科大學報:工程類 2005,25(1),113-124
指導教授 賀嘉律(Chia-Lo Ho) 審核日期 2010-7-22
推文 facebook   plurk   twitter   funp   google   live   udn   HD   myshare   reddit   netvibes   friend   youpush   delicious   baidu   
網路書籤 Google bookmarks   del.icio.us   hemidemi   myshare   

若有論文相關問題,請聯絡國立中央大學圖書館推廣服務組 TEL:(03)422-7151轉57407,或E-mail聯絡  - 隱私權政策聲明