捕獲范圍 的英文怎麼說

中文拼音 [huòfànwéi]
捕獲范圍 英文
acquisition range
  • : 捕名詞(姓氏) a surname
  • : Ⅰ動詞1. (捉住; 擒住) capture; catch 2. (得到;取得) obtain; win; reap 3. (收割) reap; harvest Ⅱ名詞(姓氏) a surname
  • : 名詞1 [書面語] (模子) pattern; mould; matrix 2 (模範; 榜樣) model; example 3 (范圍) boundar...
  • : Ⅰ動詞1 (四周攔擋起來 使裡外不通; 環繞) enclose; surround; corral 2 (繞; 裹) wrap Ⅱ名詞1 (四...
  • 捕獲 : 1. (捉到; 逮住) catch; capture; succeed in catching; acquire; arrest; seize 2. (俘獲) trapping
  • 范圍 : scope; limits; extent; boundary; confines; range; range dimension; spectrum
  1. Lc apparatus almost meet all the needs of space optical communication such as weight, size, power consume, life, cost, driving voltage, intergration of optics and electricity, programe, optically take ? over aperture, beam scanning, deflexional range and so on. switches, deflexional facilities and scanning equipments which made with lc have been used in the system of labor in space communication. the only bug of lc apparatus is that their answer speed only get microsecond rate or submicrosecond rate. but it is practical for them to be used in special beam capture, scan, deflexion controling which don ’ t concerned with code rate and code type

    液晶器件幾乎滿足空間光通信的所有大的指標要求如重量、尺寸、功耗、壽命、成本、驅動電壓、光電集成、可編程性、光學接收孔徑、光束掃描和偏轉等等。液晶光開關、光偏轉器、光掃描器已經開始應用於光纖通信的實驗系統中。液晶類器件應用於光通信的唯一重大缺陷,是其響應速度目前只能達到微秒級或亞微秒級,不過,在不涉及到碼型碼率的空間光束、掃描、偏轉、控制方面,液晶器件完全可能進入實用化。
  2. By calculating parameters including the link length, the azimuth angle, the elevation, the optical power that the inter - satellite optical cdma communication system will receive, the variation range of the azimuth angle and the elevation from the optical antenna of atp are understood well. by analyzing the factors to impact bit - error - rate ( ber ) from the received power, multi - user disturbing, background noise, wavelength, bit rate etc, measures to guarantee high performances of the system are obtained, especially those for smoothing the fluctuation of the received optical power from host platform vibration

    分析研究了衛星光cdma通信系統中衛星仰角、方位角和距離,給出了探測器能夠接收到的光功率以及atp子系統及跟瞄的;對衛星光cdma通信系統性能模型和基於衛星振動系統性能模型的研究,分析了多用戶干擾、接收光功率、背景光噪聲、振動偏差以及碼速率對系統誤碼率的影響,給出了相應的改進措施。
  3. The performance targets of acquisition and tracking : the code rate of pseudorandom signals is 1m - 5mhz, the code length is 255. 511, the receiving sensitivity is - 118dbm, the dynamic range is 70db. the doppler of carrier is 75khz, the time that 10 targets are captured within 0. 2s

    和跟蹤的性能指標:偽隨機信號碼率1m 5m比特/秒,碼長是255 、 511 ,接收靈敏度是- 118db ,信號動態是70db載波普勒是75khz ,目標在0 . 2秒內。
  4. Based on research and experiments, we effectively improved the s - band tt & c transponder for satellite in such dimensions : with sensitivity up to - 92dbm ; dynamic range wider than 55db ; capture bandwidth of the receiver wider than 500khz ; capture time reduced to 22ms

    通過論文工作,成功地改進了川于衛星的s波段測控通信一體機,跟蹤和接收靈敏度都能達到一92dbm ,動態55db以上,接收機的捉帶寬大於500khz ,捉時問減小到22ms 。
  5. This paper describes a new method to select these parameters, including to determine the focus length, relative aperture and field of view of new optical system in design by means of making reference to previous star sensors and their optical systems ; to forecast the acquiring probobility of star sensor in accordance with selected param eters ; to determine the principal design wavelength and spectral coverage by means of integrat ing the spectrum of stars

    本文介紹一種確定光學系統參數的新方法,包括通過參考比較已有星敏感器及其光學系統特性來選取新光學系統焦距、相對孔徑和視場;根據所選取的參數預計星敏感器的概率;採用綜合恆星光譜方法確定光學系統中心波長和光譜
  6. ( 2 ). according to the system indices and requirements together with the technology characteristic, it researches the capture possibility of apt capturing system. then it introduces the common scan methods, such as raster, spiral, raster spiral, rose and lissajo. ( 3 ). it makes a detailed simulation analysis of the raster and spiral scan, analyze the connection between capture probability, capture time, system index at different capture resolution angle, capture range, vibration angle extent and terminal location distributing mean square deviation

    其中對幾個關鍵部分進行了詳細分析:計算了目標角反射器的激光雷達散射截面( lrcs )值,研究了qd與ccd對目標位置角度的計算方法和空間解析度; ( 2 )根據系統指標和要求並結合現有國內技術特點研究了apt系統掃描的概率問題,然後分析了幾種常見的掃描方式:矩形( raster )掃描、螺旋( spiral )掃描,矩形螺旋( rasterspiral )掃描,玫瑰形( rose )掃描以及李薩如形( lissajo )掃描; ( 3 )對分行掃描和螺旋掃描進行了詳細的模擬分析,分析了它們在不同分辨角、捕獲范圍、振動角振幅和終端位置分佈均方差時的概率、時間與系統常數之間的關系。
  7. A fast acquisition pll with wide tuning range

    一種快寬調節的鎖相環
  8. Is not specified, the compiler will catch structured and c exceptions, but will not destroy c objects that will go out of scope as a result of the exception

    ,編譯器將結構化異常和c + +異常,但將不銷毀由於異常的原因而將超出的c + +對象。
  9. By constructing filters dynamically to suppress influence of captured symptoms to fault detection, this technology can isolates new symptoms and thus the spectrum of symptoms detected are broadened and the accuracy with which symptoms are detected is increased

    針對事件過濾階段的主要問題,提出動態癥狀隔離方法,通過動態構造過濾器抑制已癥狀對故障檢測的影響,隔離出新的癥狀,擴大檢測癥狀的和提高準確率; 4
  10. Another 20 kinds of non - designed contact points are given for the first time. contact determining algorithm of all the above contact types is given using z - buffer algorithm for 3 - d observation, and simulation results show high accordance with results of vector - associated method. simulation for non - designed contact mode with random initial conditions has been done too, and statistics from the simulation indicates that it is important to predict non - designed contact points in practical rvd efforts

    全文的工作包括以下幾個方面的內容: 1 .建立了周邊式對接機構的復雜幾何外形的數學描述,描述了對接初始條件內,兩對接機構相互接近、過程中可能出現的20種設計接觸模式,並針對初始接觸點首次提出20種非設計接觸模式;利用計算機圖形學中可見面判別的z -緩沖演算法原理,給出了所有接觸模式的檢測演算法,該演算法的模擬結果與輔助向量法高度一致,驗證了演算法的有效性;進行了300組確定首次接觸點的隨機模擬,統計結果表明,在飛船上實時進行非設計接觸模式的預測是非常重要的。
  11. The coarse frequency error estimator has a wide estimation range and may be used for initial caption. and the fine estimator can achieve nice performance in multipath environment

    該粗估計器有很大的估計,可用於頻偏的;而精估計器在多徑環境下能得到很好的估計效果。
  12. By the analysis of the first part, the domain of catching efforts which keep the system enduring and having a unique positive equilibrium that was globally asymptotically stable had been given

    通過前一部分的分析,已給出了使系統持續發展而且恰有唯一一個全局漸近穩定的正平衡點的努力量的
  13. So here the issue that we were interested in was to find the very harvesting efforts that maximize the profit function which was closely related with the catching efforts, i. e. the optimal values of harvesting efforts

    這一部分主要是在這個內,尋找使與努力量密切相關的利潤函數取得最大值的努力量,即我們所感興趣的最優的努力量值
  14. Slightly more sophisticated is to catch wider spans of code, but to use a language s introspection capabilities to report traceback information

    稍微復雜一點的解決方案是讓代碼的更寬一些,但要使用語言的內省能力來報告追溯信息:
  15. Thus with citing these results we separatedly and thoroughly examined all possible dynamical manners of the changing of the ; populations when the species were developing under the function of catching efforts in three different areas departed by the size relation between the intrisic rates of the system and the values of the harvesting efforts. so we could give out - righter qualitative analysis to this system and the scope of catching efforts which make the species sustainable and the asymptotical properties of the corresponding system were also clear

    於是,本文在引用已有結論的基礎上,根據給定努力量與系統內稟增長率之間的大小關系分三部分考慮了在不同的努力量作用之下,種群發展過程中其個體數量變化可能出現的全部動力學行為,從而對系統給予了較完整全面的定性分析,求出了使生態系統持續發展的努力量的及相應的系統的漸近性質
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