目標回波信號 的英文怎麼說

中文拼音 [biāohuíxìnháo]
目標回波信號 英文
smear
  • : Ⅰ名詞1 (眼睛) eye 2 (大項中再分的小項) item 3 [生物學] (把同一綱的生物按彼此相似的特徵分為幾...
  • : Ⅰ名詞1 [書面語] (樹梢) treetop; the tip of a tree2 (枝節或表面) symptom; outside appearance; ...
  • : 回構詞成分。
  • : Ⅰ名詞1 (波浪) wave 2 [物理學] (振動傳播的過程) wave 3 (意外變化) an unexpected turn of even...
  • : 號Ⅰ名1 (名稱) name 2 (別號; 字) assumed name; alternative name3 (商店) business house 4 (...
  • 目標 : 1. (對象) target; objective 2. (目的) goal; aim; destination
  1. Estimating a dynamical trajectory of the reverberation and then taking it out from the observation, all target echoes should be obtained. that is called signal separation

    分離是指在相空間中估計混響動力學軌道,從觀測中減去估計的混響,從而分離出
  2. Chapter 2 deals with the ground echo signal of sar, and establishes the signal models of static target and moving target

    第二章研究了合成孔徑雷達,建立了靜止和運動模型。
  3. Chapter 3 studies the false target jamming. jamming signal generation formula is proposed by the investigation of simultaneous ground echoes of two different point targets in radar beam. comprehensive research about the characteristics of jamming signal is made, and raw data is used in simulation

    第三章對虛假圖像干擾進行了研究,通過對雷達束內兩個不同的點在同一時刻的進行的分析比較,推導了干擾的生成公式,對干擾的特徵作了詳細的分析,並結合實測數據做了模擬實驗。
  4. The main research advances can be summarized as follows : ( 1 ) study the signal processing ' s performances and methods of homing torpedo system comprehensively, in order to setting up a corresponding mathematical models ; ( 2 ) analyze the ocean channel ' s effects on the work of homing system, then found some models such as target echo signal, noise ( including background noise, target radiating noise, etc ), ocean reverberation. according to them, simulate the array signal ; ( 3 ) the system structure, every function blocks composing are studied and founded thoroughly. then, discuss methods of signal processing in time domain and airspace domain ; ( 4 ) program the simulation software of torpedo ' s homing system according to the simulation models and flow charts, which connected with torpedo ' s control part

    本文所作的主要工作及研究成果主要有以下幾個方面: ( 1 )對自導工作過程中的息處理的基本理論與方法進行了較為全面的研究,為建立一個較為完備的自導模擬系統提供了理論基礎; ( 2 )討論了自導系統工作過程中海洋通道對目標回波信號輻射噪聲等的影響,建立的數學模型、環境場中的噪聲模型(包括海洋環境噪聲、輻射噪聲與魚雷背景噪聲等)與海洋混響模型,模擬產生了聲自導系統基陣接收到的與噪聲; ( 3 )深入研究並建立了自導模擬系統的總體框架,給出各個具體功能模塊組成,討論了聲自導系統對的時域與空域處理,並結合模擬程序中陣列處理模塊,給出固定多通道束形成的模擬實現過程; ( 4 )根據系統的模擬模型與已建立的模擬流程圖編制了通用魚雷模擬器自導系統模擬軟體,通過網路與控制系統相連,組成完整的魚雷模擬器。
  5. The master dissertation introduces passive correlative orientation system and base theory in signal dispose briefly in the first place. the system takes tv sound fm signal from tv satation signal. the power rate of tv station signal to sound signal is ten to one. in the case of submerged by mussy weave and machine ' s hot noise, dispersed target signal is feeble

    系統採用電臺的電視伴音調頻,其中電臺與伴音功率之比基本為10 : 1 ,並且散射較弱,一般情況下淹沒在雜和機器熱噪聲之下,採用常規的脈沖檢測方法很難對遠距離的進行檢測,而以電臺直達作為參考與目標回波信號進行相關檢測;系統中的相關處理會產生旁瓣,而強的旁瓣會影響附近的弱檢測。
  6. The paper includes four sections followed here : the first section studies the modeling of signals of pulse doppler radar seeker, and establishes a radar signal simulation model, including radar emitting signal model, receiving signal model, receiving echo signal model, clutter model, noise model, sum channel directional pattern of antenna model, difference channel directional pattern of antenna model, sheltering model, rcs model, glint noise model, etc. the second section studies signal processing of pulse doppler radar seeker, and establishes radar signal processing mathematical model and data processing mathematical model for simulation, including windowing, doppler filtering, envelope demodulation, pdi, cfar, centering, velocity tracking, angle tracking, a - b filtering, etc. the third section studies the modeling of modified proportion guiding, and establishes guiding model, then dynamic simulation results is provided

    論文的主要工作包括四部分:第一部分研究了脈沖多普勒雷達導引頭的建模問題,建立了雷達模型,主要包括:發射模型、接收模型、目標回波信號模型、雜模型、噪聲模型、和差通道天線方向圖模型、遮擋因子模型、接收機噪聲模型、雷達截面積統計性模型、角閃爍模型等。第二部分研究了脈沖多普勒雷達導引頭的處理模式,建立了和數據處理模型,主要包括:加窗和多普勒濾、包絡檢、檢后積累、頻域cfar處理、速度定心、速度跟蹤、角跟蹤、 ?濾等,然後給出了處理流程。
  7. This paper studies the characteristic of scatter from moving target in the situation of bistatic sar with stationary transmitter. the wvd method is used in the paper to estimate the doppler frequency parameter of the moving targets ; the wvd - radon method is used to restrain the cross - term. then we can use the result to adjust the parameter of the filter, and to achieve the moving targets imaging of bistatic sar

    本文分析了發射機固定的雙站sar情況下的運動目標回波信號模型,應用wvd變換對發射機固定的雙站sar的多普勒參數進行估計,並採用wvd - radon變換來抑制wvd的交叉項,以調整濾器參數,實現發射機固定的雙站sar對運動聚焦成像。
  8. Ccd ), light signals from the object is covered by relay scattering when laser beam penetrates through the atmosphere. so the technique of range gate has been used in such system

    當激光通過大氣時,瑞利散射將使得ccd器件接收到的目標回波信號淹沒在噪聲之中,因此系統中採用了距離選通技術。
  9. In chapter 3, this paper recommended the methods of estimating the parameter of moving target using cyclostationary and analyzed the performance of this method firstly, and put forward a recursive method for estimating the parameter ( velocity, acceleration ) of moving target combining the characteristic of high - prf pulsed doppler radar. then, based on the resolution of doppler and acceleration, combining the characteristic of the doppler spectrun and acceleration spectrum, this paper put forward a new method for differentiating muli - target

    然後,從彈載高重頻脈沖多普勒雷達的多普勒解析度和加速度解析度出發,結合不同編隊方式的多目標回波信號的特點,分析了多和單個的多普勒譜和加速度譜的特性,提出了一種基於一維多普勒像和一維加速度像的級次多分辨演算法。
  10. This dissertation presented a simulation method for producing ideal echoed data based on the analysis of the point ideal echoed signal model, the 2 - d format of the echoed data and the feasibility of creating simulation geography map using bmp images for distributed targets. simulation results proved that this method is efficient and reliable for the study of imaging algorithms and validation of the system parameter settings

    論文討論了系統點目標回波信號的理論模型,分析了的二維數據格式,描述了利用位圖圖像生成分散式模擬地形圖的方法,在此基礎上給出了一種理想情況下模擬數據的產生方法,用它來進行成像演算法研究及檢驗系統參數設置的合理性非常有效可靠。
  11. This distance measuring system may suffice the need of high sampling speed and signal timing processing in echo disposal

    針對毫米探測系統的特點,測距系統能夠滿足采樣速率快、實時處理的要求,可實現對地面目標回波信號進行實時採集和高速處理。
  12. That is, modeling radar system with software, and then recurring the produce, transmission processing by computer. the core of res is modeling the scatter and transmission of radar echo signal and varied radar clutter signals

    雷達模擬的核心是建立雷達目標回波信號及各種雜散射、傳播特性的模型。雜伴隨這雷達產生而產生,對于雷達的設計有著重要的影響。
  13. At last, this paper analyzed the influence of the inversive receiver to the chracteristic of the clutter and the ratio of signal power and the noise power, discussed the effective detection of target signal in correlated clutter, and then put forward a new method naming multi - periods shift accumulation for detecting moving target when not knowing the exact movement parameter

    最後,本文分析了倒置接收對噪比及雜特性的影響,討論了在相關雜區對有效檢測的方法。針對如何在彈相對運動參數未知的條件下對高速運動進行積累檢測這一問題,提出了一種多周期移位積累的新方法。
  14. This paper studies mainly on the cross - components in the underwater target echoes signal processing

    本文以時頻分析中的交叉項為主線,系統的研究了交叉項在水下目標回波信號處理中的應用。
  15. The four - parameter basis functions decomposition of time - frequency signal representation is presented based on the characteristics of doppler frequency of the radar echoes, thereby dopplerlet transform is introduced

    根據接收到的雷達目標回波信號的多普勒頻率特性,提出用4參數基函數的時頻表示法,從而引出多普勒小變換的概念。
  16. The signal processing of radar moving targets using polynomial wigner - ville distribution

    的雷達運動目標回波信號處理
  17. Efficient simulation method of underwater target echo based on complex envelopes

    基於復包絡的目標回波信號高效模擬方法
  18. Underwater target echoes are typically nonstationary signals and time - frequency analysis is effective to deal with nonstationary signals

    水下目標回波信號是典型的非平穩,時頻分析是分析非平穩的有效工具。
  19. First, the return signal model is set up. the target return signal, clutter which has gauss power spectrum and noise of the receiver are included

    首先討論的生成,包括斯威林模型目標回波信號,接收機噪聲以及具有高斯功率譜的雜模型。
  20. It is clear from the analysis that although the processing in detail and compensation precision of these imaging algorithms are different, all algorithms base on the analysis of received signal in two frequency dimensions

    從中可以認為這些成像方法的出發點是一致的,都是源於對點目標回波信號在兩維頻域下表達式的分析,只是具體處理的過程及補償的精度有所差別。
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