脈沖壓縮技術 的英文怎麼說
中文拼音 [màichōngyāsuōjìshù]
脈沖壓縮技術
英文
pulse compression technique-
Based on the doppler effect and pulse coherence technique, synthetic aperture radar ( sar ) breaks through the azimuth resolution limitation imposed by real aperture antenna. in combination with the pulse compression technique, two - dimensional high resolution imagery to distant targets can be realized
合成孔徑雷達( sar )利用以多普勒頻移理論和脈沖相參為基礎的合成孔徑技術,突破了實孔徑天線對方位向分辨力的限制,與脈沖壓縮技術相結合,實現了遠距離目標的二維高分辨成像。Second, research and analyze the feature of signal of pulse compression radar, and discuss the principle and characteristic of pulse compression technique, that are linear frequency modulation and phase coding. the above two mathematic model is constructed, and shift - frequency noise is imposed on the models, and anti - nose ability is evaluated and simulated
通過對脈沖壓縮雷達的信號特徵的研究和分析,通過研究線性調頻和相位編碼脈沖壓縮技術的原理和特點,建立了這兩種雷達的數學模型,並對此進行移頻干擾和相位編碼雷達干擾,並進行干擾性能的評估和模擬研究。Pulse compression technique is widely used in modern radar systems, to resolve the contradiction between the distance and resolution
現代雷達系統廣泛採用脈沖壓縮技術,用以解決作用距離與分辨能力之間的矛盾。That advance and further improvements in pulse compression techniques have resulted in pulses that have the maximum possible intensity for a given energy of light
有了這個進展,再加上脈沖壓縮技術的改良,我們終于能夠使固定能量的光產生出最強的脈沖來。Large time - band product signals such as linear frequency modulation signals ( lfm ), nonlinear frequency modulation signals ( nlfm ), phase coded signals and so on are one of key technologies for pulse compression radar systems
具有大時寬帶寬積的信號,如線性調頻信號、非線性調頻信號、相位編碼信號等是雷達應用脈沖壓縮技術的關鍵之一。At the same time, they process a great deal of data with high rate. these characteristics make them suitable to realize in fpga. pulse compression technology has request of multi - channel and real - time processing when it is applied in software radar
脈沖壓縮技術在軟體雷達中應用時,對信號處理有多通道實時處理的要求,由於其演算法簡單,非常適合於在fpga中實現。Linear frequency modulated ( lfm ) signals as the most popular pulse compression signal are a typical kind of time - varying, nonstationary signals, so applying the wigner - ville distribution into lfm signals has more advantages than conventional methods
雷達脈沖壓縮技術中所使用的線性調頻信號是一類典型的時變非平穩信號,採用時頻分析的研究方法處理線性調頻信號有著傳統方法無法比擬的優點。Its high resolution in range is fulfilled by using pulse compression method. its high resolution in azimuth is achieved by utilizing the doppler information among the signals received by sar at different locations. hence, the acquired image of the targets is of very high resolution
它採用距離向的脈沖壓縮技術和方位向不同位置上接收到的脈沖間的多普勒信息來獲得兩維的高解析度,從而得到高解析度的目標圖像。Pulse compression technique and large timeband product signals such as linear frequency modulation signals, nolinear frequency modulation signals, phase coded signals and so on are widely used in modern radar systems to improve the resolving power both in range and in speed domain
現代雷達為了提高雷達作用距離和速度分辨力、距離分辨力,廣泛採用了脈沖壓縮技術及大時寬帶脈壓信號如:線形調頻、非線形調頻、相位編碼信號等。Synthetic aperture radar ( sar ) is a new type of radar system developed since 1950 ' s. it breaks through the resolution limitation imposed by real aperture. with pulse compression technology, two - dimensional high resolution to distant targets can be realized
合成孔徑雷達( sar )是五十年代發展起來的一種新型雷達體制,它利用合成孔徑原理,突破了實孔徑天線對解析度的限制,並結合脈沖壓縮技術,可以對遠距離目標進行方位向和距離向兩維高分辨成像。Pulse compression technique is widely used in modern radar systems. it solves the contradiction between the range and velocity resolution. large time - bandwidth product signals such as linear frequency modulation signals ( lfm ) are used in pulse compression technique to improve the resolution in range domain
現代雷達系統廣泛採用脈沖壓縮技術,在確保雷達作用距離和速度分辨力的前提下,採用大時帶積脈沖壓縮信號:如線性調頻( lfm )信號提高距離分辨力。To suppress the clutter, noise and detect target, we adopt several advanced sp methods such as pulse compression, mti, mtd, cfar, amplitude - comparison angle measurement and ambiguity resolution, of which we emphase the algorithms of cfar and ambiguity resolution. two cfar algorithms, cell - averaging cfar ( ca - cfar ) and ordered
為了抑制雜波、噪聲和檢測目標,採用了脈沖壓縮、動目標顯示、動目標檢測、恆虛警、單脈沖比幅測角和解模糊等較先進的雷達信號處理技術,並採用了多模式分通道處理方式。Moreover, the pulse compression radar has been widely used in practice because of its far detection range and good range resolution
此外,為了解決雷達作用距離和距離分辨力之間的矛盾,脈沖壓縮機技術在現代雷達系統中被廣泛採用。With the development of digital technology, getting pulse compression signals with direct digital synthesis has been in general use these days. it is widely used to generate pulse compression signal using dds method
隨著現代數字技術的發展,直接數字波形合成( dds )的方式獲得脈沖壓縮信號已為現代雷達普遍採用。With the development of modern digital technology and vlsi, the method of digital waveform synthesis of the pulse compression signals is now widely used in radar systems
現代數字技術和vlsi技術迅猛發展,波形合成已經由傳統的純模擬方法發展到現在的直接數字合成,數字方式獲得脈沖壓縮信號已成為現代雷達普遍採用的波形合成方法。Pulse compression technique is widely used in modern radar systems. large timeband product signals such as linear frequency modulation signals ( lfm ), nonlinear frequency modulation signals ( nlfm ), phase coded signals and so on are used in pulse compression technique to improve the resolution in range domain
現代雷達系統廣泛採用脈沖壓縮技術,在確保雷達作用距離和速度分辨力的前提下,採用大時帶積脈沖壓縮信號:如線性調頻( lfm ) 、非線性調頻( nlfm )和相位編碼信號等,提高距離分辨力。The purpose of this thesis is to introduce the digitalization realization scheme, technology of if receive and pulse compression for lfm pulse compress radar, and how to implement them with fpga and other hardware circuits in our system
本文針對線性調頻雷達中對脈沖信號回波的中頻接收以及脈沖壓縮處理系統的全數字實現方案及技術進行了研究,並對其進行了硬體實現。The fast development of digital signal processing technology provides us with the possibility of numeralization of radar pulse compression processing
同時,數字信號處理技術的迅猛發展和廣泛應用,為雷達脈沖壓縮處理的數字化實現提供了可能。This dissertation introduces the work principles, hardware circuit structure and application of a pint - sized multifunctional radar echo generator, which can generate various waveforms needed. we can modulate the doppler frequency and adjust the time delay of the waveform to validate the performance the radar system
該設備體積小、操作簡便、便於攜帶,可模擬lfm 、 nlfm 、單頻、相位編碼等多種脈沖信號波形,具有較寬的多普勒調制和時間延遲調節功能,能有效驗證脈沖壓縮與信號處理單元的工作性能,準確評估雷達系統的分辨力、威力范圍等技戰術指標。This thesis mainly studies the digital pulse compression technique and analyses the pulse compression performance of lfm signal with high compression ration. it also simply describes the basic theories of sar imaging and signal processing. based on these theories and high performance digital signal processing chip adsp21160, we successfully design and realize a frequency domain digital pulse compression system on hhpc board with four adsp21160 embedded
本文主要研究了合成孔徑雷達成像技術中距離和方位頻域數字脈沖壓縮技術,著重分析了高壓縮比下lfm信號的脈壓性能,簡述了合成孔徑雷達成像的基本原理和信號處理,在此基礎上結合高性能數字信號處理晶元adsp21160研製成功了基於hhpc板的二維頻域數字脈沖壓縮處理系統。分享友人