聚焦誤差 的英文怎麼說

中文拼音 [jiāochā]
聚焦誤差 英文
focusing error
  • : 動詞(聚集; 聚積) assemble; gather; get together
  • : Ⅰ形容詞1 (物體受熱失去水分 呈現黃黑色並發硬、發脆) burnt; scorched; charred 2 (著急) worried;...
  • : Ⅰ名詞(錯誤) mistake; error Ⅱ動詞1 (弄錯) mistake; misunderstand 2 (耽誤) miss 3 (使受損害...
  • : 差Ⅰ名詞1 (不相同; 不相合) difference; dissimilarity 2 (差錯) mistake 3 [數學] (差數) differ...
  • 聚焦 : [物理學] (使光或電子束等聚集於一點) focus; focusing; concentrate
  • 誤差 : error
  1. Further image processing ( e. g., histogram scaling, application of filters or deconvolution ) is not recommended for astrometric or photometric applications, because it will distort the centroids and flux of the objects in the image

    其他的操作(如:柱狀圖縮放,濾鏡處理或去卷積)在天文測量或光度測量軟體中將不被推薦,因為這樣的操作會對目標星的光流量和中心產生
  2. A sil flying head is designed to keep the distance between sil and recording medium in near - field range. a sil optical data storage system is built up when the recording head is combined with sil flying head. meanwhile, using astigmatic focusing error detection technology and twin optical pick - up heads, a novel nontouching nanometer measurement method is developed to measure the flying height of sil, and provides us with a powerful tool to optimize the design of sil fly head

    在sil存儲技術研究方面,首先提出一種光學玻璃熱熔加工製作sil的新方法,該方法克服了小半徑球透鏡加工的難題,成功製作出了半球固體浸沒透鏡;設計了sil飛行頭系統,並利用光學頭像散法聚焦誤差檢測原理,設計出一種雙光學頭sil飛行高度測量方案,實現了sil飛行頭飛行高度的測量。
  3. The aim of defocus detection is to achieve high etching quality by providing the defocus error signal for focus - servo system which can make the etching spot focus accurately

    檢測的任務是為伺服系統提供聚焦誤差信號,使寫入光斑能夠精確,從而保證刻蝕質量。
  4. For 15mhz immersion focusing ultrasonic testing signal, the proper sampling frequency is 90mhz, the appropriate strobe - width is 1. 2us and the sampling error less than 20 %

    本文的試驗分析結果表明,對于中心頻率為15mhz的水浸探頭,其采樣頻率應不低於90mhz ,閘門寬度為1 . 2us ,特徵點的采樣應不大於20 。
  5. To correct these effects, two methods were introduced in this paper : using weighted function to constrain second phase error caused by dispersion, and utilizing pga algorithm to reduce the phase perturbation due to the irregularities of the ionosphere

    本論文介紹了兩種校正方法:利用加權函數抑制色散效應引起的二次相位,以及使用相位梯度自演算法較正由電離層的不規則性引起的信號相位起伏。
  6. Thirdly, a modified extended chirp scaling ( ecs ) algorithm is presented, which solves the problem of producding fine focused images in the class of chirp scaling ( cs ) algorithm. lt can be used for uwb - sar imaging effectively. the phas e error produced by cs operation are analyzed. a windowed process in two dimension frequency domain before cs operation are proposed. it can improve the quality of image and widen the effectively swath and increase the peak to sidelobe ratio ( pslr )

    然後針對chirpscaling ( cs )類演算法不能對參考點精確的問題,提出了一種改進的擴展cs ( ecs )演算法,實現了對uwb - sar的高效成像;分析了cs操作產生的相位,提出在cs操作之前在二維頻率域對信號加窗,除有效提高信號的峰值旁瓣比( pslr )外,還可以提高圖像質量,增加有效測繪帶寬度。
  7. Firstly, the principle of phase gradient autofocus and rank one phase estimate and its advanced are detailed. secondly, it proposes an algorithm of fast maximum contrast phase compensation after discussing its similar algorithm fast minimum entropy phase compensation

    討論了經典的相位梯度自演算法、秩一相位演算法及其改進形式;在討論快速最小熵相位補償演算法的基礎上,提出了對比度最優相位調整演算法,實測數據處理表明了該演算法的有效性。
  8. According to the high spatial correlativity of the ionosphere contamination, then the rank one phase error estimation ( rope ) auto - focus method in imaging radar is suitably modified and applied to the ionosphere decontamination of hf radar echoes

    根據電離層污染具有高度空間相關性的特點,將成像雷達中的秩一相位估計方法適當修正後應用於高頻雷達回波信號去電離層擾動污染。
  9. Lastly, the dissertation makes a rough comparison between all autofocusing algorithms and points out that the performance of autofocusing is dependent on particular scenes and the characteristics of phase errors

    最後,對各種方法進行了比較,指出自的性能依賴于具體的成像場景及相位特性。
  10. Since phase gradient autofocusing ( pga ) often produces unsatisfactory results when operating upon scenes that are dominated by distributed targets, a modified weighting average phase errors estimation method is proposed

    針對相鄰強目標導致的相位梯度自演算法( pga )收斂速度下降,提出了一種加權平均相位估計方法。
  11. Chapter 2 introduces the sources and influences on images of all kinds of phase errors, analyzes existing some autofocusing algorithms and lays stress on considerations for application

    論文第二章詳細分析了各種相位的來源及它們對圖像產生的影響,對幾種現有的自演算法進行了描述,指出實際應用過程中應該注意的問題。
  12. Autofocus algorithm is used to reduce second and higher rank phase error in the image

    演算法用來減少圖像中的二次及以上階相位
  13. The parallel computing ability of wave number domain algorithm is also being studied basically. the influence of the carrier movement errors on the sas image is analysed in chapter three firstly. based on studying those algorithms which have been successfully applied in sar, the limitations of these auto - focusing algorithms are discussed. hereafter an auto focusing algorithm based on time delay and phase error evaluation is raised, which can compensate big movement error effectively and so can be applied in sas

    第三章首先分析了孔徑上運動對合成孔徑聲吶圖像的影響,在研究在sar領域里成功應用的演算法的基礎上,對其運動補償的局限性做了分析,提出一種基於時延相位估計的自演算法,它能夠有效地補償運動帶來的影響,並且適用於sas運動較大的情況。
  14. Phase gradient auto - focus algorithm ( pga ) and rank one phase estimation auto - focus algorithm ( rope ) satisfying high - resolution air - borne sar image formation needs are analyzed. aimed at disadvantages of pga and rope algorithms, improved rank one phase estimation auto - focus algorithm ( irope ) is introduced. at last, combining fsa and irope algorithms, using air - borne sar actual flight data, the algorithms " feasibility and validity are validated

    第三,針對相位對圖像質量的影響進行了定性分析,同時對多普勒參數估計的必要性及其幾種演算法進行了討論;接著系統研究了適合於高解析度機載sar成像要求的相位梯度自演算法( pga )和秩一相位估計自演算法( rope ) ,並針對pga和rope演算法的不足之處,介紹了改進的秩一相位估計自演算法( irope ) ;最後,結合fsa成像演算法和irope自演算法,以機載sar實際飛行數據為基礎,對演算法的可行性和有效性進行驗證。
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