高分辨技術 的英文怎麼說

中文拼音 [gāofēnbānshù]
高分辨技術 英文
high resolution technique
  • : Ⅰ形容詞1 (從下向上距離大; 離地面遠) tall; high 2 (在一般標準或平均程度之上; 等級在上的) above...
  • : 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
  • : Ⅰ動詞(辨別; 分辨; 明察) distinguish; discriminate; differentiate; recognize Ⅱ名詞(姓氏) a surname
  • : 名詞(技能; 本領) skill; ability; trick; technique
  • : 術名詞1. (技藝; 技術; 學術) art; skill; technique 2. (方法; 策略) method; tactics 3. (姓氏) a surname
  1. K - ar age dating method is facing a serious challenge to its application due to that both ar loss and ar excess are widespread found even though it has been undergoing 50 years. in the latest few years of the 20th century, studies on k - ar geochronology have been pushing on a new step as a sign of method perfected and precision enhanced. high precision and high resolution

    Ar定年方法的完善和精度的提為標志,把k - ar年代學研究推向了一個新度。微區微量精度定年,把定年時限擴展到人類歷史范疇,精細的拓寬了年代學的應用范圍,使之解決的地質問題更廣泛。
  2. It is becoming trends of modem radar technology, which are ultra - wide band, high resolution, low probability of interception, intelligent, according to the points of high tech local war happened last several decades

    針對局部戰爭的特點,現代雷達正朝著超寬帶、、低截獲、多功能、智能化的方向發展。
  3. Targets in the radar ppi have the main property of the little area, a few targets and irregular change of grey. so it is difficulty to detect and track the target. the study of the radar ppi is very few inland and abroad. with the development and implement of high resolution radar and high resolution raster display, target _ tracking and detecitng based on the radar ppi will be feasible. it ' s great excellence is to increase time accumulation compare with the detecting techenicial of the traditional radar

    雷達ppi中目標的特點是面積小,目標或可能的目標多,灰度、形狀變化無明顯規律,所以檢測和跟蹤目標比較困難。基於雷達ppi的研究國內外甚少,隨著解析度雷達和光柵顯示器的發展,基於ppi的雷達目標檢測和跟蹤成為可能。與傳統的雷達目標檢測相比,其潛在的優勢在於大大增加了信號的時間積累,因此有可能提檢測性能。
  4. Because of the presence of the first - order sea echoes with dominant amplitude, the doppler resolution technique which based on the range - velocity transformation is needed to extract the targets information in hf radar

    頻雷達工作在擁擠的短波波段,由於絕對占優的一階海浪回波的存在,必須採用基於距離?速度譜變換的多普勒頻率來處理雜波,以提取目標信息。
  5. 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,突破了實孔徑天線對方位向力的限制,與脈沖壓縮相結合,實現了遠距離目標的二維成像。
  6. 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,可以對遠距離目標進行方位向和距離向兩維成像。
  7. High resolution banding technique

    顯帶
  8. Recently, with the fast development of multi - targets identification and high resolution microwave imaging technologies, ultra - wide band radar has been more and more widely used in object imaging and object detection field

    近年來,隨著集群目標識別、力微波成像雷達等研究的快速發展,超寬帶雷達在目標成像與目標識別領域得到了越來越廣泛的應用。
  9. High - resolution multi - source direction finding is always a hot research area in array signal processing. the breakthrough of this technique is greatly meaningful in many research fields such as sonar, radar, communication, biomedical engineering, geology and so on

    陣列處理的高分辨技術一直是國內外十關注的研究熱點,其中多目標定向是國內外集中力量研究的重點,該項的突破對聲納、雷達、地質勘探、生物醫學工程及水中兵器均有重要意義。
  10. All these limitations influence the whole performance available in sonar systems. supported by the natural science foundation of china, this dissertation systematically studies beamforming techniques and beamspace high resolution bearing estimation algorithms with emphasis on sonar systems

    本文結合國家自然科學基金項目、 「九五」國防重點預研項目和實際水聲系統的研製,系統研究了聲吶波束形成與波束域目標方位估計
  11. From macro to micro and from qualitative to quantitative evaluation, this paper, applicating the theory and technological method of sequence stratigraphy, seismic stratigraphy -, reservoir sedimentology, combining with multispecialty and mutisubject theory that used geology, log, seismic, mathematics and earth physics and basing on synthetic application of regional geology, core, log, seismic and petrophysical property data, has studied the inner structure and characteristic of sequence, system tract and depositional system. combining with high resolution seismic data and log data, this paper makes a profound analysis of the space pattern and reservoir predictability of depositional system on oil and gas pools of honghaoersute sag

    本文採取從宏觀到微觀,從定性到定量的研究思路,應用層序地層學、地震地層學、儲層沉積學的理論和方法,結合區域地質、巖芯、測井、地震、物性資料,採用多專業、多學科理論和方法相結合。闡明層序、體系域和沉積體系的內部構成及其特徵,與地震資料和測井資料的處理相結合,深入解剖洪浩爾舒特凹陷油氣藏成藏組合的沉積體系空間配置、儲層預測,在等時地層框架內對含油層段( k _ 1ba組、 k _ 1bt ~ 1及k _ 1bt ~ 2段)進行精細解剖,有目的地尋找以地層、巖性圈閉為主的隱蔽油氣藏。
  12. The sensors ? along with infrared, high - speed, and high - definition motion - capture cameras ? allowed scientists to measure and map the speed, force, range, and impact of the fighter ' s techniques

    這些傳感器通過一個紅外的,速的,度的錄像機將使科學家們可以測量並描繪出格鬥者的速度,打擊力,沖擊力。
  13. The sensors ? along with infrared, high - speed, and high - definition motion - capture cameras ? allowed scientists to measure and map the speed, force, range, and impact of the fighter ' s techniques

    這些傳感器通過一個紅外的,速的,度的錄像機將使科學家們可以測量並描繪出格鬥者的速度,打擊力,沖擊力。
  14. It has broad application prospect in the following fields such as microelectronics, photoelectronic devices, large screen flat panel display, field emitter array, acoustic surface wave device, photon crystal, light waveguide array, holographic honeycomb lens and micro - optical element array, micro - structure manufacture, fabrication of large area grating and grid of high resolution, photoresist performance testing, profile measurement and metrology, etc. the paper only involves the primary research of interferometric lithography

    在微電子、光電子器件、大屏幕平板顯示器、場發射器陣列、表面聲波器件、光子晶體、光波導陣列、全息透鏡和微光學元件陣列、微結構製造,、大面積光柵和網格製造,在抗蝕劑性能測試、面形測量和計量等領域,干涉光刻都具有廣闊的應用前景。
  15. Within one single source echo, both doa and time - delay can be estimated simultaneously by this algorithm via high - resolution rotational invariance technique and high - resolution time - delay frequency ( tdf ) technique. the esprit - tdf algorithm has features of low computation, good precision, and high resolution both in doa and time - delay. it is suitable for multiple source exact localization

    該方法利用旋轉不變時延頻率,可在單次目標回波內實現多目標信號的方位和時延參數的聯合估計,具有運算量小、能力強、估計精度等特點,能夠對多目標進行精確定位。
  16. The basic principle, theory, main types and realizing methods of maskless laser interferometric lithographic technology used for generation of high resolution, deep sub - micron and nanometer patterns in large field of view are deeply investigated

    深入研究了無掩模激光干涉光刻用於、大視場、深亞微米和納米圖形生成的基本原理、理論、主要類型和實現方法。
  17. Aiming at the practical applications on engineering, the dissertation studies the theories and application technologies of constant beam - width beam - former and doa estimation for wideband signals. the main results and achievements are summarized as follows : 1

    論文從實際工程應用的角度出發,系統研究了恆定束寬波束形成和寬帶陣列信號處理的相關理論和實現,主要研究內容包括: 1
  18. General technical condition for high - resolution automatic earth resistivity instrument

    自動地電阻率儀通用條件
  19. The dissertation researches the principle of high - frequency multibeam sonar imaging and some parts of the techniques, and does some work of simulation on the base of the simulating mathematic model, then achieves some available results

    本論文對多波束聲納圖像的產生機理及部作了研究。並以建立的模擬數學模型為基礎,做了模擬工作,得到了有益的結果。
  20. The technology of digital beamforming ( dbf ) can dramatically increase array antenna performances. these performances include fast adaptive pattern nulling, ultra - low sidelobes, closely spaced multiple beams, adaptive space - time processing, high resolution direction fiding ( df ) and increased capacity for band - limited communications systems

    數字波束形成( dbf )可顯著提陣列天線的性能,這些性能包括:快速自適應波束置零、超低副瓣、密集多波束、自適應空時處理、測向和大容量有限帶寬通信等等。
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