末端輸出 的英文怎麼說

中文拼音 [duānshūchū]
末端輸出 英文
eoend output
  • : Ⅰ名詞1 (東西的梢;盡頭) tip; terminal; end 2 (非根本、非重要的事物) nonessentials; minor detai...
  • : Ⅰ名詞1 (東西的頭) end; extremity 2 (事情的開頭) beginning 3 (門類; 方面) item; point 4 (原...
  • : Ⅰ動詞1 (運輸; 運送) transport; convey 2 [書面語] (捐獻) contribute money; donate 3 (失敗) l...
  • 末端 : end; terminus; terminatio; terminal; tail end; extremity末端棒 terminal bar; 末端朝上 endways
  • 輸出 : 1 (從內部送到外部) export 2 [電學] output; outcome; outlet; out fan; fanout; 輸出變壓器 output ...
  1. There are 16 - 32 gland ducts from prostate opened into the urethra, eject prostatic fluid which composes semen. furthermore, the right and left ejaculation ducts are formed by the spermatic efferent and the ampullae located end of the spermaduct, also pass through the prostate and open to the spermatic colliculus

    條腺管開口于尿道內,射精時排前列腺液,參與精液的構成此外,精囊的管與精管的壺腹匯合后形成左右射精管,亦穿過前列腺開口于該段尿道的精阜,在一個
  2. The experiment apparatus has been developed, which is based on software ( labview ) and hardware ( pci board ni 6024e ). the displacements and generative force at the tip of the ipmc actuators were measured with respect to the different voltages, frequents and various waveforms which include square, sinusoidal, and triangular wave

    實驗選取了不同電壓幅值,不同頻率的方波、三角波、正弦波三種波形作為電激勵信號,利用高速攝像記錄ipmc的位移變形,並通過力傳感器實測了ipmc試樣力。
  3. And then, the error matrixes of location and kinemics of the end point, and the on - line error compensation method are given based on robot ' s dynamics. finally based on puma robot, three simulation examples are given respectively ; the first is about the location error and on - line location error compensation, the second is about the kinetic error and on - line kinetic error compensation, the third is about location and kinetic errors causing by robot ' s dynamics and the on - line error compensations. the simulation results show that : a ) location error of the end point based on elastic deformation of the sensor will be about millimeter ' s degree under the permitting load, b ) the on - line error compensation methods given are available

    第三章首先概括了目前機器人連桿慣性參數識別的四種方法,總結這些方法的優、缺點;指這些方法存在的問題是:或者需將機器人解體,不能在線進行參數識別,或者不能給機器人連桿獨立的慣性參數值,只能獲得慣性參數的組合值,而這些方法的共同問題是:不能考慮機器人連桿的關節特性;本章提了一種基於腕力傳感器的機器人連桿慣性參數在線識別方法,給了該方法的理論計算和推導;研究提了以腕力傳感器為前提的、基於newton - euler動力學的機器人動力學正向、逆向遞推公式;針對機器人負載參數辨識必須在線、實時的特點提了基於腕力傳感器的負載參數在線識別方法,給了負載參數識別的步驟。
  4. The cord shall withstand weight of 500 gram, it swings from left to right at an angle of 120 degree 2000 times, the cord should no damage

    加500的砝碼,從左到右以120度的夾角搖擺2000次,線應無損壞。
  5. In the task space, the attitude space of the robot end - effector is parameterized by rodrigues parameters, and an output feedback controller without the generalized velocity is designed for controlling the position and attitude of the end - effector of a rigid robot

    利用機器人控制系統固有的無源性,在作業空間中,採用rodrigues參數描述執行器的姿態,設計了用於機器人執行器位姿控制的反饋控制律,消除了控制器中的廣義速度。
  6. In this thesis we analyze in detail the influence, created by random change of the optical wave polarization, on the output of the interferometer. then several principles of eliminating polarization - induced fading are introduced, and the principle that inserting two faraday rotator mirrors into the end of michelson fiber interferometer to eliminate the fading is analyzed in detail. this method can eliminate polarization - induced fading without additional signal processing, and make the output of the sensor stable

    其中,本文詳細分析了光波偏振態的隨機漂移對干涉儀的影響,介紹了目前幾種消偏振衰落技術的原理,著重討論了在光纖michelson干涉儀加兩個法拉第旋轉鏡的消偏振衰落的原理,該方法不需要任何附加的信號處理就可以消除偏振衰落,使干涉儀穩定。
  7. Relationship between the link length of kinetic limb module and end output of moving platform is analyzed by finite element ( fe ) simulation of solid module through the example of 3 - puu and 6 - pus parallel micromanipulators

    並以3 - puu和6 - pus並聯微動機器人為例,將實體模型進行有限元模擬分析,研究運動支鏈模塊中連桿長度對運動平臺末端輸出的影響。
  8. With boundary conditions different from the conventional method, the dynamic equation is developed, which can be used to find input joint angles or input joint torques for the specified trajectory of the end - effector

    通過採用與通常方法不同的邊界條件,推導了給定機器人任務求解機器人入關節角和關節力矩的柔性機器人動力學方程。
  9. The dynamic equations are derived, which can be used to obtain the trajectory of the end - effector for given input joint angles or input joint torques

    由此推導了對于給定的關節入求解柔性機器人軌跡的動力學方程。
分享友人
分享到 Line

分享到臉書