正交頻分多路 的英文怎麼說

中文拼音 [zhēngjiāobīnfēnduō]
正交頻分多路 英文
ofdm
  • : 正名詞(正月) the first month of the lunar year; the first moon
  • : Ⅰ動詞1 (把事物轉移給有關方面) hand over; give up; deliver 2 (到某一時辰或季節) reach (a cert...
  • : Ⅰ形容詞(次數多) frequent Ⅱ副詞(屢次) frequently; repeatedly Ⅲ名詞1 [物理學] (物體每秒鐘振動...
  • : 分Ⅰ名詞1. (成分) component 2. (職責和權利的限度) what is within one's duty or rights Ⅱ同 「份」Ⅲ動詞[書面語] (料想) judge
  • : 1 (道路) road; way; path 2 (路程) journey; distance 3 (途徑; 門路) way; means 4 (條理) se...
  1. Orthogonal frequency division multiplexing ( ofdm ) is a special case of multicarrier transmission, in which a single high data rate datastream is transmitted using a number of lower data rate subcarriers

    Ofdm (正交頻分多路復用)是一種特殊的載波傳輸方式,由於它使用一系列低速子載波并行傳輸數據,使得傳輸速率得到大幅度提高。
  2. Orthogonal frequency division multiplexing ( ofdm ) is a special case of multicarrier transmission, in which a single high rate datastream is transmitted using a number of lower data rate subcarriers

    Ofdm ( orthogonalfrequencydivisionmultiplexing正交頻分多路復用)是一種特殊的載波傳輸方式,由於它使用一系列低速子載波并行傳輸數據,使得傳輸速率得到大幅度提高。
  3. Then, we establish the finite element analysis models of the antenna in different structure layout, and obtain the corresponding frequencies and model shapes. finally, according to the importance of each object, we set up the model of multiple objects that aims to maximize the first natural frequency and minimize the mass. combining orthogonal experiment and variant weighting coefficient method, we formed an effective multiple objects optimized algorithm basing on the neural network and genetic algorithm

    本文首先詳細的敘述了天線結構的各組成單元,闡明了天線反射拋物面的形成原理;然後在ansys軟體環境中建立了不同結構布局下天線的有限元析模型,析計算了各種情況下天線的的固有率與振型;最後依據天線各指標的重要性,建立了以一階固有率最大、質量最小為目標的天線結構目標優化設計模型,並基於神經網和遺傳演算法,結合實驗和變加權系數技術,形成了一種有效的目標優化演算法,在matlab平臺下實現了天線的結構目標優化設計計算程序,求得了天線的最佳結構參數。
  4. And pays emphasis on analyzing the system structure and system flow, the core techniques, the channel characteristic and parameters of dvb - t system. the system adopts some core techniques such as cofdm, a lot of tps ( transmission parameter signalling ) insert and guard interval, and so on. so it can withstand high - level ( up to odb ), long delay static and dynamic multipath distortion

    論文首先描述了數字電視地面廣播的需求條件,技術難點和目前存在的問題,並重點析了dvb - t系統結構流程,核心技術及系統通道特性和參數,該系統採用了cofdm (編碼正交頻分多路復用) ,大量導信號插入和保護間隔技術等核心技術,使之能抵抗高電平( 0db ) ,長延時的靜態和動態徑失真,有利於數字和模擬電視的混合傳輸,它的載波調制模式功能和性能在移動和便攜接收、同網等方面具有獨特的優勢。
  5. The u. s. transmission format is called 8 - vsb ( for 8 - level vestigial sideband ), which is more susceptible to multipath distortion than the european system, called coded orthogonal frequency division multiplexing, or cofdm

    美國的傳送格式是八階殘邊帶( 8 - vsb ) ,這種格式比歐洲的編碼工( cofdm )系統,更容易受到徑問題影響。
  6. Orthogonal frequency division multiplexing ( ofdm ) is a multi - carrier modulation method

    正交頻分多路復用是一種載波調制技術。
  7. Orthogonal frequency division multiplexer

    正交頻分多路復用技術
  8. Comparing to inducing - magnetic mode with 50hz alternating current, we can use lower frequency alternating current to induce the magnetic so that it can eliminate the noise at 50hz frequency and weaken the noise whose phase lags signal 90 ? greatly. comparing to inducing - magnetic mode using rectangle - wave current as the signal, using low frequency to induce magnetic can eliminate ( weaken ) the differential coefficient noise. thirdly, it eliminates or weakens all different noise by designing the circuitry effectively in the transforming signal part

    相對於50hz流勵磁,這種勵磁方法可以採用更低的率來對微流量的磁進行勵磁,一方面可以完全消除工干擾,另一方面可以極大地減小干擾;相對于方波勵磁,這種勵磁方法相當于值方波勵磁,有利於消除或減少方波法勵磁所帶來的微干擾。
  9. Recently, multiple input multiple output ( mimo ) system which originates from the employment of multiple antennas at transmitter and receiver has many advantages such as large system capacity, high spectral efficiency. on the other hand, orthogonal frequency division multiplexing ( ofdm ) which bases on the orthogonal transmission of sub - carriers also has some obvious merits such as strong anti - multipath ability, high spectral efficiency. the combination of the two techniques mimo - ofdm, has become a hotspot recently and regarded as promising technique for future next - generation mobile communication systems

    近來,在無線通信系統中的收發兩端同時使用根天線的出( mimo , multiple - input - multiple - output )通信結構,具有系統容量大、譜效率高等優點;基於子載波并行傳輸的復用( ofdm , orthogonalfrequencydivisionmultiplexing )技術,具有抗徑能力強、譜效率高等優點,二者的結合,即mimo - ofdm技術,被認為是構建下一代移動通信系統的框架技術。
  10. This is the first occasion that w - ofdm - based fixed wireless access system is put to large - scale commercial use in china

    這是基於w ofdm (寬帶正交頻分多路復用)技術的固定無線接入系統在中國首次大規模的商業應用。
  11. Due to a variety of advantages, such as high bandwidth efficiency and excellent anti ? multipath performance, orthogonal frequency division multiplexing ( ofdm ) has received considerable attentions and been widely used in many fields

    正交頻分多路復用( ofdm )因具有帶利用率高和抗徑能力強等優點,近年受到廣泛的重視。
  12. In next mobile communication system to suffice more and more high - speed data service and demand of qos ( quality of service ) many new wireless link layer transport technologies are going to be used such as mimo ( multiple input multiple output ), ofdm ( orthogonal frequency division multiplexing ), channel coding and acm ( adaptive coding modulation ) etc. low density parity check ( ldpc ) codes were first discovered in 1960 ’ s which belong to linear block codes with their parity matrix being sparse

    下一代移動通信系統為了滿足移動用戶對高速、寬帶數據傳輸業務不斷增長和更高服務質量的要求,採用了許新的無線鏈傳輸技術,包括天線發射和接收技術、復用技術、通道糾錯編碼技術和自適應編碼調制技術等。上世紀60年代提出的低密度校驗碼,是一種校驗矩陣為稀疏矩陣的線性組碼。
分享友人
分享到 Line

分享到臉書