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| 研究生: |
周宇亮 Yu-Liang Chou |
|---|---|
| 論文名稱: |
2.4GHz之無線電波室內傳播通道特性量測與分析 |
| 指導教授: |
陳錕山
Kun-Shan Chen |
| 口試委員: | |
| 學位類別: |
碩士 Master |
| 系所名稱: |
地球科學學院 - 太空科學研究所 Graduate Institute of Space Science |
| 論文出版年: | 2000 |
| 畢業學年度: | 88 |
| 語文別: | 中文 |
| 論文頁數: | 86 |
| 中文關鍵詞: | 室內 、傳播 、傳播通道 、無線電波 、延遲擴散 |
| 外文關鍵詞: | delay spread, indoor, channel, propagation, 2.4GHz |
| 相關次數: | 點閱:11 下載:0 |
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近年來,室內無線通訊的應用已引起廣泛地注意,其中包括了個人行動通訊以及無線區域網路通訊,而有效估計室內無線通訊情形的需求亦日益增加,其中關鍵在於如何使用最少的基地台並確保系統傳輸品質。因此,無線電波在室內傳播通道特性的研究成為重要的課題。
在本研究中,我們量測2.4GHz的無線電波於室內傳播的通道特性。我們使用網路分析儀同時產生和量測寬頻信號在頻域上的資料;藉由傅利葉轉換,我們可以分析脈衝信號在時域上的資訊。此外,藉著找尋電波傳播路徑的方式,我們可以找出反射為無線電波在樓梯環境間傳播的主要機制。最後,我們並統計所量測到的場強與延遲擴散大小,來找到在此大樓中擁有最佳涵蓋率與通訊品質的基地台位置。
本研究結果顯示: 2.4GHz之無線電波在此量測實驗環境下傳播時,其室內傳播通道特性符合IMT-2000規格的需求,也符合最新的Bluetooth技術與IEEE802.11規格的需求。此量測環境的多重路徑效應並不嚴重,對於其他環境則有待作更多的量測。
Indoor wireless communications (IWC) such as personal communications (PCs) and wireless local area networks (WLANs) are exploded in recent years. The need for an efficient way to evaluate radio propagation in buildings is increasing. It is also critical to minimize the number of base stations required to ensure satisfactory system performance. Consequently, the radio propagation characteristic for indoor environment becomes an important research topic.
In this thesis, the characteristic of radio-propagation channel for indoor environment at 2.4 GHz is measured. The network analyzer, HP 8510C, is used to measure the wideband signal propagation synchronously in frequency domain. By using FFT, the corresponding impulse signal in time domain is then analyzed. The ray-tracing measurement discovered that reflection is the main mechanism of radio multipath propagation in the stairway. In order to find out best coverage performance of the base-station location in the building, all the received power and RMS delay spread are also regressed. The measured results illustrate that: the propagation channel at 2.4 GHz in this environment satisfies the requirement of IMT-2000, even Bluetooth and IEEE802.11. In addition, multipath effects are not obviously at the measurement site.
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