空間武器系統 的英文怎麼說

中文拼音 [kōngjiāntǒng]
空間武器系統 英文
space-based weapon system
  • : 空Ⅰ形容詞(不包含什麼; 裏面沒有東西或沒有內容; 不切實際的) empty; hollow; void Ⅱ名詞1 (天空) s...
  • : 間Ⅰ名詞1 (中間) between; among 2 (一定的空間或時間里) with a definite time or space 3 (一間...
  • : Ⅰ形容詞1 (關于軍事的) military 2 (關于技擊的) connected with the art of attack and defence in...
  • : 名詞1. (器具) implement; utensil; ware 2. (器官) organ 3. (度量; 才能) capacity; talent 4. (姓氏) a surname
  • : 系動詞(打結; 扣) tie; fasten; do up; button up
  • : Ⅰ名詞1 (事物間連續的關系) interconnected system 2 (衣服等的筒狀部分) any tube shaped part of ...
  • 空間 : space; enclosure; room; blank; interspace
  • 武器 : weaponarms
  • 系統 : 1. (按一定關系組成的同類事物) system 2. (有條理的;有系統的) systematic
  1. The intelligent mine will be the most important weapon system to defend arming helicopter hedgehopping in future war. passive acoustic detection technology is the key technology. with the researching of the national defence pre - researching project which is the research of acoustics compound fuse of anti - helicopter intelligent mine, this paper presents acoustic localization algorithm and discusses the affect of wind to the localization, then a method of how to correct the affect of wind has been studied, upon this a dsp software system has been designed

    智能雷彈是防禦超低飛行的裝直升機的重要,而被動聲探測技術是其關鍵技術,本文結合「九?五」國防預研項目「反直升機智能雷彈聲復合引信技術」的研究,對目標聲定位演算法和風對被動聲定位的影響及如何對這種影響進行修正進行了深入分析,並在此基礎上設計了dsp軟體
  2. The intelligent mine will be the most important weapon system to defend arming helicopter hedgehopping in future war. passive acoustic detection technology is the key technology. with the researching of the national defence pre - researching project which is the research of acoustics compound fuse of anti - helicopter intelligent mine, this paper presents two type of acoustic localization algorithm, emphasizes the discussion of algorithm and presicion of space acoustic localization with sensors at different height in detail and compares them

    智能雷彈是防禦超低飛行的裝直升機的重要,而被動聲探測技術是其關鍵技術,本文結合「十?五」國防預研項目「反直升機智能雷彈聲復合引信技術」的研究,對兩種目標聲定位演算法進行了深入分析,重點討論了高低陣定位演算法,分析了定位精度。
  3. With compensation of signal ’ s time delay from different radiating element by phase shifters, phased - array antenna can control array beam easily. because there are no mechanical devices for rotating beam, the phased - array antenna system can scan everywhere in beam covered areas in millisecand by stepping the phase shifters. it improves the tracking velocity of antenna towards the object, and becomes the development trends of weapon system antennas

    相控陣天線利用移相補償信號到達輻射單元時的差異,從而控制波束方向;天線沒有機械旋轉問題,只需改變移相的設定值,波束便可以在毫秒級內掃描其覆蓋域內的任何地方,提高了天線對目標的跟蹤速度,是目前天線的發展方向。
  4. Fighting space wars must be supported by many different weapons systems

    戰必須有多種不同作支撐。
  5. In the air combat simulation, since the system runs in the way of time frame cycle, the flying locus of the weapon, such as missile, changes as a dispersing function, and its movement is much faster than the target ( moving or static ) comparatively, so some errors emerge when the collision test is calculated between the weapon and the target

    摘要戰模擬中,由於模擬採用時幀周期方法調控的解算,致使導彈等的飛行彈道呈離散函數變化,而導彈等的飛行相對于靶標(運動或靜止)是一個快速運動,這樣,與靶標的碰撞解算就會引出很多誤差問題。
  6. The far - distance targets can be detected with the aid of the satellite image and the ample respond time of the defensive system can be provided ; the cryptic cruise missile and anti - radiation cruise missile can be effectively detected and tracked recur to the infrared image. radar is widely used in the cruise missile defensive system. the radar in the sky can detect the further flying cruise missile, ground based radar and coastal defense radar can track and help weapons system aim at the oncoming force cruise missile

    在目前情況下,衛星圖像、紅外圖像以及雷達成像在探測、跟蹤、識別、打擊巡航導彈目標方面具有相當大的優勢,藉助于衛星圖像可以在遠距離發現目標,能夠為防禦提供比較充足的響應時;藉助于紅外圖像可以有效對付隱身巡航導彈和反輻射巡航導彈;雷達是在巡航導彈防禦中使用最多的設備,基雷達能夠探測離防區比較遠的巡航導彈,陸基雷達和海基雷達能夠跟蹤巡航導彈,並可協助瞄準來襲巡航導彈,尤其是雷達陣在巡航導彈防禦中更是可以發揮重要作用。
  7. Since 1960s, the mechanical strength reliability and structural system reliability, whose main failure modes are fatigue and service life, has achieved a great deal of development and been applied to engineering machine, aeronautical and astronautical engineering, electric apparatus, bridges, ship, civil engineering etc. with the developing of space technology and tendency of machine towards high speed, precision, automation, one realizes the importance of mechanism reliability based on the accuracy of motion, for the errors of mechanism occurred more often than that of structure, especially in the field of aeronautical and astronautical engineering and operate system of weapon

    上個世紀60年代以來,以疲勞、壽命為主要失效模式的機械強度可靠性、結構體可靠性研究得到了很大發展,並迅速應用於工程機械、航航天、電設備、橋梁、船舶、土木工程等。隨著技術的發展以及機械的高速精密化、自動化發展,人們逐漸認識到以機構動作參數的準確可靠為主要指標的可靠性問題日益突出,因為在很多機械上機構的故障多於結構的故障,尤其是在航航天及操縱方面。由於這些機構的運轉特性,振動可靠性的研究亦佔有突出的位置。
  8. The performance of the space optical system is determining the performance of space telescope, reconnaissance satellite and weapon system to a great extent

    光學的性能在很大程度上決定著太望遠鏡、偵察衛星和的性能。
分享友人
分享到 Line

分享到臉書