旁瓣電平 的英文怎麼說

中文拼音 [bàngbàndiànpíng]
旁瓣電平 英文
side lobe level
  • : 名詞1 (旁邊) side 2 (漢字的偏旁) lateral radical of a chinese character (e g 亻 氵 etc )Ⅱ形...
  • : Ⅰ名詞1 (花的分片) petal2 (植物的種子、果實或球莖可分開的小塊兒) clove; segment 3 (物體破碎後...
  • : Ⅰ名詞1 (有電荷存在和電荷變化的現象) electricity 2 (電報) telegram; cable Ⅱ動詞1 (觸電) give...
  • : Ⅰ形容詞1 (沒有高低凹凸 不頃斜) flat; level; even; smooth 2 (高度相同; 不相上下) on the same l...
  1. On the base of above it, this paper discuss the synthesis of optimum distributed arrays by nonuniform spacing in the sense of dolph - chebyshev. having derived the equations of optimum element distribution, we analyze the exponentially spaced array, which are optimum when the elements are isotropic and equally weighted, and the array by general raised cosine function. the formulate for estimating the sidelobe envelope, beamwidth of the array pattern and clean region width are obtained

    推導了最佳陣元分佈方程,分別對陣元無方向性和等加權時的最佳分散式陣列? ?指數間隔陣列和採用廣義升餘弦加權的最佳分散式陣列進行了分析,推導了天線方向圖包絡、波束寬度,干凈掃描區寬度的估計公式,給出了近軸旁瓣電平與陣列參數的關系。
  2. In the chapter, we are also presented a low sidelobe beamforming synthesis technique. the main beam is pointed in the proper direction by choosing the steering vector for that direction

    為了獲得自適應優化權向量,形成任意的旁瓣電平波形,即使在區域干擾很強時,也能保證有很好的方向圖輸出。
  3. In this dissertation, the mathematic model of optically controlled phased linearity array is established by basic theory of phased array radar. the problems of instantaneous bandwidth of ocpar and subarray number are researched, the relationship between the excursion of the direction pattern and subarray number, main lobe stretched - out of the direction pattern and bandwidth, side - lobe level of the direction pattern and subarray number, pulse compression and bandwidth, pulse compression and subarray number is analyzed. after corresponding simulations are done, a summary of advantages of ocpar compared with the traditional phased array radar is presented

    針對x波段信號,仔細研究了光控相控陣的瞬時帶寬問題和子陣數問題,分析了光控相控陣列方向圖偏移與信號帶寬及子陣數的關系,光控相控陣列方向圖主展寬與帶寬的關系,方向圖旁瓣電平與子陣數的關系,脈沖壓縮與信號帶寬及子陣數的關系,完成了相應的模擬,通過與普通相控陣的對比,總結出了光控相控陣相對于傳統相控陣的巨大優勢。
  4. The antenna is obtained by extending the longitudinal strip of the fin - line, and etched on a metallized dielectric substrate. it is operating at ka band ( center frequency : 34ghz ), which has a good agreement between simulated and measured results. its e - and h - plane 3db main lobe beamwidth are 79. 25 and 80. 03 degrees respectively with sidelobes less than - 10db

    天線工作的中心頻率為34ghz , e面和h面測試方向圖主寬度分別為79 . 25o和80 . 03o ,旁瓣電平均小於- 10的db ,模擬和試驗結果基本一致,所設計天線的各項指標經測試基本達到要求。
  5. Using this method the side - lobe level is suppressed more through double weighting in time domain

    採用雙加權的失配處理分析方法,在時域進一步降低壓縮脈沖的旁瓣電平
  6. We studied the characteristic of the signals and processing methods. spatially variant apodization algorithm is introduced to significantly reduce sidelobe levels without degrading mainlobe resolution

    用sva的方法對回波信號加權,在有效抑制isar回波脈沖包絡旁瓣電平的同時提高信號的主解析度。
  7. The sidelobes are controlled by introducing a large number of interfering signal at many angles throughout the sidelobe region

    本章還利用人工加載干擾的方法,提出了一種低旁瓣電平波束合成演算法。
  8. Also, the relationship between the nearby sidelobe lever and the array parameters is given. as these results, a simple synthesis method of optimum thinning arrays with any desired nearby ( mainlobe )

    得到了一種具有任意近軸旁瓣電平和干凈掃描區寬度的最佳分散式陣列的綜合方法,並與現有幾種陣列綜合方法進行了比較。
  9. Performance of inflatable antenna reflector hinges critically on the precision of the membrane surface. if the error is not in the range of limit, it will heavily decrease antenna gain and increase sidelobe level

    形面精度是決定充氣展開天線反射器性能的一個關鍵因素,如果誤差不在允許范圍內,那麼它會嚴重降低天線的增益,增加旁瓣電平
  10. Combining the above signal model and the conventional lcmv method at element level we present a lcmv method at subarray level. in all kinds of jammer scenarios, the method can suppress jammers well, but the disadvantage is that the sll ( sidelobe level ) of adaptive patterns is much higher

    將上述提出的信號模型與常規線性約束最小方差( lcmv )方法相結合得到子陣級lcmv方法,在各種干擾情況下該方法都可以實現對干擾的很好抑制,但其局限性是自適應方向圖的旁瓣電平較高。
  11. In chapter 4, a chebyshev method beamforming for uniform circular arrays ( ucas ) is proposed based on dolph - chebyshev method for uniform linear arrays ( ulas ). this method is that it computationally efficient which makes it eminently suitable for real - time beamforming and beamstearing applications. we describe the new approach for synthesizing array patterns with guaranteed least sidelobe levels for any look direction

    我們對基於均勻線陣dolph - chebyshev波束合成方法進行研究,提出了基於均勻圓陣dolph - chebyshev波束合成演算法,即期望信號在任意入射角度時,均能保證同樣的主寬度和最小旁瓣電平的陣列方向圖合成演算法。
  12. The unequal noise powers of respective subarrays result in several slls closer to the mainlobe in the adaptive pattern increasing. so we propose normalization method by normalizing the outputs of subarrays which can suppress the sll well. quiescent pattern control is important for radar systems equipped adbf and spatial adaptivity

    各子陣輸出噪聲功率不同,使得自適應方向圖中離主較近的幾個旁瓣電平被提高,因此我們提出歸一化方法,通過對子陣輸出進行歸一化,可有效地抑制旁瓣電平
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