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研究生:王建國
研究生(外文):Jiann-Kuo Wang
論文名稱:整合無線藍芽傳輸與資料壓縮技術於監測效能提昇之研製
論文名稱(外文):Integration of Wireless Bluetooth Technique with Data Compression Approach for Monitoring Performance Enhancement
指導教授:黃世杰黃世杰引用關係
指導教授(外文):Shyh-Jier Huang
學位類別:碩士
校院名稱:國立成功大學
系所名稱:電機工程學系碩博士班
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:2004
畢業學年度:92
語文別:中文
論文頁數:101
中文關鍵詞:藍芽場規劃邏輯閘陣列資料壓縮
外文關鍵詞:FPGAData CompressionBluetooth
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  近年來,由於各產業之蓬勃發展,導致用電需求激增,因此如何提供穩定之用電以及維持一定之用電品質,已愈趨重要。而本文之研究主旨即著眼於電力廠區之大型設備監視不易,且需確保廠區人員之安全,因此提出一可行之解決方案,亦即監測系統之開發應用。本研究中係以資料壓縮技術作為監測系統之核心,其演算法為JPEG(Joint Picture Expert Group)壓縮標準,再輔以應用硬體描述語言(Hardware Description Language;HDL)實作於場規劃邏輯閘陣列(Field Programmable Gate Array;FPGA)晶片,藉以提高速度及降低成本,又因考量資料傳送中,需大量廣佈架設及考慮到成本問題,因此,並採用整合無線藍芽技術於網路的架設,期經由跳頻技術之優點以減少干擾,同時藉由藍芽微網路之特性,達成網路之擴充,裨於監測效能之提昇,同時兼顧維繫電力系統運轉與控制上相關工程人員之安全。
  With the rapid growth of utility electricity usage in a modern industry, both the stable power supply as well as the electric power quality has become increasingly important nowadays. In view of these requirements, this paper is aimed to provide a solution that not only helps enhance the monitoring performance, but also ensures the operation safety for utility personnel. In this thesis, the core of this proposed approach is data compression that is made based on the standard of Joint Picture Expert Group (JPEG). Then, in order to improve the speed and reduce the development cost, the hardware description language is also employed for the implementation of field programmable gate array (FPGA). Meanwhile, because the data transmission needs the widespread use of the wire connections, the wireless bluetooth technique is also integrated with the proposed scheme such that the cost can be further lowered down, while the interference can be also decreased with the aid of frequency-hopping mechanism. Moreover, the piconet and scatternet provided by the bluetooth technique would help the network expansion need. With the solution approach provided in this thesis, it helps improve the performance improvement of monitoring. In the meantime, the safety of the related engineers in the power system control and operation can be all better ensured.
中文摘要 I
英文摘要 II
目錄 III
表目錄 V
圖目錄 VI
第一章 緒論 1
1-1 研究背景 1
1-2 研究動機 2
1-3 研究方法 3
1-4 論文架構 4
第二章 系統開發相關技術介紹 5
2-1 簡介 5
2-2 JPEG壓縮標準 5
2-2-1 簡介 5
2-2-2 JPEG壓縮演算法 6
2-3 無線藍芽技術 17
2-3-1 簡介 17
2-3-2 藍芽傳輸技術特點 18
2-3-3 藍芽網路 20
2-3-4 藍芽低功率特性 22
2-3-5 通訊協定 23
2-3-6 藍芽堆疊 26
2-4 場規劃邏輯閘陣列 28
2-4-1 簡介 28
2-4-2 Altera Stratix晶片 29
第三章 系統開發平台與架構 32
3-1 簡介 32
3-2 系統開發軟硬體平台 32
3-2-1 系統開發硬體介紹 33
3-2-2 系統開發軟體介紹 39
3-3 開發系統架構 42
3-4 藍芽開發模組 51
第四章 開發及實驗結果 65
4-1 簡介 65
4-2 JPEG壓縮實作結果 65
4-3 監測系統之FPGA實作 90
4-4 監測系統實作成果 91
第五章 結論 97
5-1 結論 97
5-2 未來研究方向 98
參考文獻 99
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[9]G. Lakhani, “Optimal Huffman Coding of DCT Blocks,” IEEE Transactions on Circuits and Systems for Video Technology, Vol. 14, No. 4, April 2004, pp. 522-527.

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[12]陳同孝,張真誠,黃國峰,“數位影像處理技術“,松岡電腦圖書資料股份有限公司,民國九十年一月。

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[17]B. Chatschik, “An Overview of the Bluetooth Wireless Technology,” IEEE Communications Magazine, Vol. 39, No. 12, December 2001, pp. 86-94.

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[19]R. Shepherd, “Bluetooth Wireless Technology in The Home,” Electronics & Communication Engineering Journal, Vol. 13, No. 5, October 2001, pp. 195-203.

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