offset carrier system 中文意思是什麼
offset carrier system
解釋
間離載波系統-
Algorithms of carrier frequency offset estimation in ofdm system
系統載頻偏移估計演算法的研究 -
Aimed at the characteristics that multi - carrier transmission is sensitive to frequency offset and require high synchronization performance, firstly multi - carrier ofdm technique is introduced, the influence of synchronization offset to ofdm system is analyzed and two kinds of typical synchronization methods are given based on pilot and cp in the paper
針對多載波傳輸對載波偏移敏感,對同步要求高的特性,論文首先介紹了多載波ofdm技術,分析了同步偏移對ofdm系統性能的影響,給出了基於導頻和循環前綴的兩種典型的同步方法。 -
It is necessary in digital communication system that carrier recovery can compensate frequency offset and phase jitter brought by transmission and modulation. this paper is mainly focused on carrier recovery technique. we introduce the channel model at cable headed and receiving site. firstly, we introduce the principle of carrier recovery and give some algorithms of them, which are directed - decision, reduced constellation and frequency sweeping
本論文緊緊圍繞著數字通信系統中的載波恢復技術,在介紹了有線通信系統所用的調制解調通道模型后,首先闡述了載波恢復技術的思想和基本原理,在此基礎上給出了三種載波恢復演算法,即判決導向演算法、簡化星座判決演算法和掃頻演算法,並且給出了其各自的模擬圖:然後深入研究了一種適合高階qam並且能糾正較大頻偏的載波恢復技術:極性判決演算法。 -
The simulation for qpsk shows that the algorithm can estimate the carrier phase and frequency offset accurately and reduce the system ber effectively
結果表明,用該演算法可以精確估計載波相位和頻差,有效地降低系統的誤碼率。 -
Chapter 2. the influence of symbol, frequency and carrier offset to ofdm system is analyzed according to ofdm principles and typical sync methods are given
第二章依據正交頻分復用技術的原理,分析了符號偏差,頻率偏差和采樣偏差對系統的影響,給出了典型的同步方法。 -
Firstly, in wireless environment, receiver has no know the time delay between transmitter and itself. in ofdm system, ofdm data is transmitted as one symbol, so in order for correct demodulation, the correct start of symbol should be got from ofdm system to reduce the effect of isi. secondly, the high frequency utilization in ofdm is based on the orthogonal properties of sub carriers. if frequency offset is generated, the orthogonal properties among sub carriers will lost, that will cause inter carrier interference ( ici ) and high ber of system
Ofdm技術也存在著一些缺陷,首先,在無線環境中傳輸的ofdm信號對定時要求高,為了減少碼間串擾( isi )影響,必須從接收信號中提取出正確的符號起始位;其次, ofdm系統對頻率偏移敏感, ofdm技術的高頻譜利用率和傳輸可靠性均以子載波的正交性為基礎,如果接收機和發射機之間發生頻率偏移,子載波之間就會失去正交性,導致嚴重的子載波間干擾( ici ) ,降低系統性能。
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