應用於感知無線電之序列式高階統計量頻譜偵測; Higher-Order Statistics Based Sequential Spectrum Sensing for Cognitive Radio

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Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/48350

Title:	應用於感知無線電之序列式高階統計量頻譜偵測;Higher-Order Statistics Based Sequential Spectrum Sensing for Cognitive Radio
Authors:	謝馨儀;Hsing-yi Hsieh
Contributors:	通訊工程研究所
Keywords:	序列式機率比;高階統計量;頻譜偵測;感知無線電;cognitive radio;spectrum sensing;cumulant;sequential probability ratio test
Date:	2011-08-15
Issue Date:	2012-01-05 14:52:19 (UTC+8)
Abstract:	隨著行動與無線通訊技術與日俱進的快速發展，應用於不同範圍的無線通訊標準也如雨後春筍萌生。然而隨著數位電視的崛起，類比電視大部份的頻帶使用率並不高。綠能科技的提出，使得感知無線電成為下一世代有效增進頻譜效能的通訊技術。頻譜偵測為感知無線電的其中一個重要議題，感知使用者偵測主要使用者是否有傳輸資料後，擷取並用來傳輸資料。藉由感知無線電和合作式通信兩種技術來達成高可靠、高品質及高效率之通訊服務，來克服傳輸通道衰落並提升機會傳輸量；兩者的結合將會對未來的無線行動通信系統帶來重大影響。目前的文獻大多利用能量檢測器當作頻譜偵測的方法，但在低訊雜比時，辨識率並不高。因此本研究基於高階統計量為基礎設計一套檢測器，可有效消除高斯白雜訊在低訊雜比的影響；此外，高階統計量所需的複雜度較高，因此我們利用序列式檢測法降低偵測時間。為了抵抗遮蔽效應，我們利用合作式通訊增加偵測可靠度。本演算法的優點不僅能應用於大多通訊系統，也能有效抵抗雜訊及衰落通道。 In cognitive radio, spectrum sensing is a key enabling functionality to identify the vacant spectrum which is not occupied by primary systems. With good sensing capability, secondary users can effectively recycling the spectrum resource without disturbing active primary users. Energy detectors are commonly used and relatively simple spectrum sensing techniques. However, for low signal-to-noise ratio (SNR) regimes, the performance of energy detectors degrades dramatically as the signal and noise could be mixed together after the operation of energy calculation. In addition, the outputs of the energy detectors are often assumed as Gaussian distribution, which is not necessarily guaranteed in realistic cases. In this paper, a high-order statistics (HOS) based sequential test detector is investigated for sensing spectrum, particularly for low-SNR applications. We resort to high-order statistics, in terms of cumulant statistics, for overwhelming the Gaussian noise effect and improving the spectrum sensing reliability. Based on these cumulants, a binary hypothesis testing problem is formulated and a low-complexity sequential probability ratio test (SPRT) is developed for efficiently detecting underutilized spectrum. Our numerical results show that the proposed detector outperforms more than 10dB detection probability than the conventional energy detectors.
Appears in Collections:	[Graduate Institute of Communication Engineering] Electronic Thesis & Dissertation

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