carrier-frequency offset 中文意思是什麼

carrier-frequency offset 解釋
載頻偏置
  • carrier : n 1 運送人,搬夫;負荷者;使役,〈美國〉信差,郵遞員;送報人;〈英國〉運輸行,運輸業者。2 傳書鴿...
  • frequency : n. 1. 屢次,頻仍,頻繁。2. (脈搏等的)次數,出現率;頻度;【物理學】頻率,周率。
  • offset : n 1 抵銷,抵銷物,(優點對缺點等的)彌補,補償 (to; against)。2 分支;支脈;【植物;植物學】側...
  1. Carrier frequency offset

    載波頻率偏置
  2. Algorithms of carrier frequency offset estimation in ofdm system

    系統載頻偏移估計演算法的研究
  3. In the synchronous techniques based pilot symbols, here propose a frequency offset estimating arithmetic using discrete pilot symbols. we pick up integer times sub - carrier frequency offset from the same ofdm symbol and estimate exact

    此外,在頻偏估計方面,推導出短訓練序列前後兩段時域符號間的關系,並利用此進行粗頻偏估計,使頻率偏移的估計范圍大大增加。
  4. Analysis of the carrier frequency offset of filterbank - based multi - modulation

    基於波濾器組的多載波調制頻偏分析
  5. Firstly the carrier phase with frequency offset is obtained with a parallel method

    該演算法利用并行方法估計有頻差時的載波相位。
  6. An algorithm suitable for carrier phase and frequency offset estimation in software radio is proposed

    摘要提出一種適合軟體無線電的載波相位和頻差估計演算法。
  7. 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。
  8. Algorithm of carrier frequency offset estimation for psk signal based on dft

    信號載波頻差估計演算法
  9. 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。
  10. The problems of carrier frequency offset estimation under the condition of the agwn channel, frequency flat - fading channel and frequency selective - fading channel are studied in detail respectively

    本文仔細研究了在高斯白噪聲通道下、頻率平坦衰落通道下和頻率選擇性衰落通道下高精度估計信號載頻偏差的問題,並對相應演算法提出了一些改進辦法。
  11. This paper deals with problems of high accurate estimation of carrier frequency offset which is widely used in communication signals synchronization and frequency measurement. therefore, it ' is very importance for interception and location of signals

    通信信號載頻偏差的高精度估計廣泛應用於通信信號的同步和頻率測量當中,因此,對于信號的截獲和定位具有非常重要的作用。
  12. 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。
  13. Based on the coherent reception theory of radio signals and the theory of digital signal processing, the effects of carrier frequency offset, sampling clock offset, and symbol timing offset on ofdm signals are exploited. a series of amendments and new algorithms is derived from the in being algorithms of guard interval based symbol timing and frequency offset estimation, frequency - domain frequency offset, sampling offset, and symbol timing offset estimation

    以無線信號的相干接收和數字信號處理理論為基礎,就載波頻偏、采樣鐘偏差和符號定時偏差對ofdm信號的影響進行了分析,對基於保護間隔的符號定時與載波頻偏估計演算法和多種現有頻偏、采樣鐘與符號定時偏差的頻域估計演算法進行了研究,提出了一系列改進措施與新演算法。
  14. Digital down converting is one of the key technologies of software radio. it can improve the efficiency and reliability of communications. lt is also important to realize software radio receivers. the paper focuses on the technologies involved in digital down converting, such as integer sampling - rate conversion, non - integer sampling - rate conversion and carrier frequency offset estimation algorithm. on the base of these, the paper analyzes applications of digital down converting in the hsp50214b programmable downconverter. the hardware and sofeware of the application of digital down converting are also introduced

    數字下變頻技術是軟體無線電中的關鍵技術之一。該技術不僅有助於提高通信的有效性和可靠性,還對實現真正的軟體無線電臺有著重要的意義。本文對數字下變頻所涉及整數倍采樣率轉換、非整數倍采樣率轉換和載波初始頻差估計校正作了較深入的研究,並提出了一些實用高效的實現結構和演算法。
  15. The method was correlate search and fft carrier detection, which could solve the problem of the capture of the spread spectrum code under the condition of low snr and big frequency offset. we also put forward a method, shift receiving window and correlate with local sequence, which not only could solve the problem of symbol synchronization but also could acquire the statistics of the multipath. then we utilized the results of the channel estimation and the technology of rake receiver to decode the received spread spectrum sequence and acquire rude information

    方案中提出了:相關搜索、 fft檢測信號載波的方法,解決了低信噪比、大頻差條件下擴頻碼的同步捕獲難題;滑動相關完成位同步的方法,解決了低信噪比下的同步問題;在時域利用相關進行通道估計,然後利用rake接收技術完成相關解擴的方法,一定程度上解決了多徑衰落影響解擴性能的問題。
  16. In the end, implementation of if digital receiver unit of tdrss user transponder by the method of fpga and dsp cooperation design are completed successfully, which leads to good ds - ss if receiver design for the signal whose carrier frequency is 3mhz, pseudorandom code rate is 3mchips / s, data rate is 10kbps, frequency offset is no more 1khz, and modulation mode is bpsk

    最後,完成了該中頻數字接收機設計,並對其進行調試和測試。測試結果表明,該接收機能對載頻為3mhz ,頻偏不大於1khz ,偽隨機碼速率為3mchips / s ,信息碼速率為10kbps , bpsk調制的直接序列擴頻中頻信號進行接收,基本滿足設計要求。
  17. Take the hoc based blind modulation detection algorithm as an example, the relationship between the blind modulation detection algorithm and synchronization is investigated. an unproved detection algorithm robust to frequency offset is proposed which solves the problem caused by the error in carrier synchronization. how to synchronize a received signal with unknown modulation type is studied and a blind algorithm to estimate symbol timing of the signals with unknown modulation type is presented

    研究了載波同步和碼元定時同步與調制方式盲檢測演算法的關系;以自適應單載波中高階累積量調制方式盲檢測演算法為例,對于載波同步誤差引起的頻偏問題,提出一種基於頻偏穩健的mdpsk信號調制方式盲檢測演算法;對于未知調制方式信號的定時同步問題,提出一種盲定時估計演算法,該演算法可以估計mdpsk和mqam信號的定時同步信息,實現數字信號的同步分類;提出了一種基於調制方式盲檢測的自適應接收機結構,把調制方式盲檢測,信噪比估計和同步解調聯合起來進行,實現調制方式隨通道質量而自適應變化的信號的正確接收。
  18. 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。
  19. Lastly, the ml criterion is used to analyze the nda timing offset estimation algorithms. two symbol synchronization methods that use feedback and feed - forward timing offset estimation algorithms are discussed and simulated. based on the ml criterion, chapter 5 analyzes some carrier recovery algorithms and proposes a nda frequency offset estimation algorithm

    首先簡要介紹了載波同步參數的最大似然估計理論,在此基礎上對一些具有代表意義的載波頻差估計演算法進行了深入分析,並提出一種寬估計范圍、低實現復雜度的非數據輔助載波頻差估計方法。
  20. So, people proposed an open - loop - based method for estimating the carrier frequency offset of the signal with random data

    為此,人們提出了一種基於開環結構的psk解調的相位估計法。
分享友人
分享到 Line

分享到臉書