波束角 的英文怎麼說
中文拼音 [bōshùjiǎo]
波束角
英文
field angle-
The beacon will have a limited beamwidth and if the body-to-beam angle exceeds this a serious loss of signal will result.
這個信標器的波束寬度有限,如果彈體波束角超過了它,信號就會發生嚴重的衰減。In bathymetric survey, the recorded seabed is distorted due to the beam - width of the echo sounder
摘要在海底地形測量中,由於波束角效應導致探測的海底地形存在失真。First, based on phased array antenna ' s mono - pulse goniometry and separate coordinate technology about phase control, the antenna beam pointing error formula, caused by phase quantization error, is derived from linear array and circular array to planar array and cylindrical array
首先以單脈沖相控陣天線測角原理為基本理論出發點,利用相位控制的坐標分離技術,基於線陣、圓形陣等簡單形式的相控陣天線,推導了平面陣、圓柱面陣等相控陣天線由相位量化誤差引起的波束指向誤差公式。Method of measurement of centre beam intensity and beam angle of reflector lamps
反光燈的中心波束強度及波束張角的測量方法Firstly, the methods to restrain the effect of ship swing are studied for two - axes shipbome radar. two different methods based on ship rectangular frame and inertial frame are proposed separately according to consistence of radar base angle and beam angle
本文首先研究了艦載兩軸雷達系統抑制船搖的方案,對雷達天線轉角和波束轉角一致和不一致的情況,分別提出了基於甲板坐標系穩定和基於大地坐標系穩定的不同方法。In this paper, taking the measured error sound velocity profile as the initial guess value, the sound beam travel times and beam angle recorded by the multi - beam system and the generalized linear inversion method are used to get a sound velocity profile close to the actual sound velocity profile, and the inversed sound velocity profiles have contributed to the reduction of sound velocity profile error
摘要以測得的誤差聲速剖面作為初始猜測值,利用多波束記錄到的波束傳播時間和波束角等信息,通過廣義線性反演得到一個與實際聲速剖面比較接近的聲速剖面,這有助於減少聲速剖面的誤差。It is important to eliminate or degrade the effect caused by the beam width of echo sounders and reflect the true seabed
為提高海底地形的測量精度,應消除或減弱波束角效應影響。The differences on resolution capability and the performance of estimation between beam - space processing and element - space processing are analyzed. transforming matrices are designed for the consideration of depressing the resolution threshold and estimation variance
分析比較了波束域處理與陣元域處理的分辨能力以及估計性能,並從降低分辨門限和估計方差角度考慮,給出了轉換矩陣的構造方法。Modern sonar systems generally use hydrophone arrays and advanced signal processing techniques to improve their detection and localization abilities, whereas beamforming plays an important role. as it is known, the conventional beamforming approach provides limited array gains and low interference suppression abilities, and cannot resolve multi - targets distributed within a small spatial region
但是,傳統的波束形成方式所提供的陣增益有限,對干擾的抑制能力不強,且不能分辨空間小角域內的多個目標,影響了聲吶系統整體性能的發揮。What is really significant is the body-to-beam angle.
然而真正有意義的是彈體一波束角。The motion compensation of radar target and an analysis of influence of component imperfection in the realization of the method are presented. to evaluate the performance of the proposed method. monte carlo simulation has been conducted to estimate the root mean square error of the angle estimates and the spatial resolution snr threshold in the cases of both non - fluctuating targets and fluctuating targets
在此基礎上,提出了針對相位權重角度超分辨法的雷達目標的運動補償方法,分析了雷達系統各部件的不理想性對超分辨性能的影響,用montecarlo方法對無抖動目標和有抖動目標在不同信噪比下的方位估計誤差和方位超分辨的信噪比門限進行了模擬計算,並將結果同波束空間music方法及cramerrao限進行了比較。Beam deflection produces boresight error ( bse ) which is defined as angle shift between viewing direction and true direction. boresight error slope ( bses ) is defined as the ratio of angle shift to the tracing angle of the antenna
波束偏移的主要後果是產生瞄準誤差,使目標的視在位置與真實位置有一個角度差,這個角度差就是天線罩的瞄準誤差。The radiation patterns with and whitout radome are calculated, and the angle difference in the maximum field point of their main clot show the bse of the radome, the bse from - 15 degree to 15 degree in direction, that been calculated and compared with the excited experimented data shows they coincide quite well
有天線罩時的遠區場和沒有天線罩時的遠區場相比較,兩個主波束對應的角度差即是天線罩的瞄準誤差,本文對方位掃描角從負15度到正15度進行分析。A new wideband beamformer based on stretch processing in the scenario with large scanning angle
基於拉伸處理的寬帶寬角接收波束形成新方法Firstly, the motion error model for the system is proposed, and accuracy of the model is satisfied under the condition of wide beamwidth
首先提出了低頻uwb - sar運動誤差模型,在大波束張角范圍內具有較高的精確性。Linear array can only provide an azimuth scan ranging from 0 to 180 degree, while circular array from 0 to 360. by means of recurring moving array excitation, circular array controls the beams ’ orientation simply and neatly, creating a perfect pattern in azimuth and an ideal pattern in pitch
線陣只能有180的掃描范圍,而圓形陣列能夠提供360方位角,通過循環移動陣列激勵,簡單而靈活地操縱波束的方位,能夠在方位上產生沒有方向性方向圖,而在俯仰方向上也有一個理想的方向特性。The biggest problem is calculating the seabed slope angle of the unknown seabed
而對未知海底的傾斜角求解問題是解決波束角效應的難點之一。Aiming at the problem of angle motion estimation in monopulse three - dimension imaging, a novel angle motion parameters estimation method based on the inverse synthetic aperture radar imaging for difference beam is presented
摘要針對單脈沖三維成像時的目標角運動估計問題,提出一種基於差波束逆合成孔徑雷達成像的新的角運動參數估計方法。Space meeting includes radar beam availability distance, the angel scope that radar can observe, the difference because of the earth ' s covering. finally, we analyse the meeting of the target and radar sub - beam
空間交會包括雷達作用距離,雷達可觀測的角度范圍,地球的遮擋而引起的雷達可觀測范圍的改變,最後分析了雷達子波束和目標的交會情況。Energy distribution involves many radar ' s parameters, such as peak power of transmitter, maximum pulse width, antenna gain, rotating speed of antenna, beam width, covering range of elevation, maximum height and range and so on
能量分配牽涉到雷達系統的各種重要參數如發射機峰值功率、最大發射脈寬、天線增益、天線轉速、波束寬度、仰角覆蓋范圍、最大高度覆蓋、最大作用距離等。分享友人