誤差補償 的英文怎麼說

中文拼音 [chācháng]
誤差補償 英文
compe ation of error
  • : 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...
  • : Ⅰ動詞1 (修理; 修補) repair; mend; patch 2 (補充; 補足;填補) fill up; add supplement; supply; ...
  • : 動詞1. (歸還; 抵補) repay; compensate for 2. (滿足) meet; fulfil
  • 誤差 : error
  • 補償 : compensate; make up; make up for; make it up to sb. ; make sth. good; compensation; offset
  1. Image coordinate and galvanometer pendular angle are kept in the computer according to the f9 field lens characteristic, enter pupil excursion and f6 characteristic error are ignored, that the image of laser scanning point move acceding to unlinearity relation is deduced theoretically. for deducing the distortion, error compensation is considered in the software

    像點坐標與振鏡擺角按f物鏡特性的線性關系存儲在計算機,在忽略了入瞳漂移和f特性后,從理論上推導出二維垂直振鏡分佈中激光束掃描點的像點按照復雜的非線性關系運動,為了減少幾何畸變,在軟體設計中給出誤差補償
  2. Color image segmentation based on fuzzy logic

    基於模糊優化演算法的慣性元件誤差補償方法
  3. In general, a precise resistor is in series with one of the resistors in wheatstone bridge to compensate the zero offset, and the other one is in parallel with another arm of the wheatstone bridge to compensate thermal zero drift. based on this principle, in this paper, a compensation method based on virtual instrument technology has been put forward. actuated by current source, a good calculation method of compensation resistors and their position in the bridge is deduced

    本文基於串並聯電阻法的原理,提出了一種基於虛擬儀器的誤差補償方案,推導了在恆流源供電下可以精確的計算出電阻大小和位置的演算法,並且在虛擬儀器軟體平臺labview上完成了數據採集、處理、顯示等軟體的設計,經過實驗的驗證,對傳感器的零點溫度漂移取得較好的效果,而對靈敏度溫度漂移的工藝亦有一定的效果。
  4. Third step is using modifying method and the compensating method to increase the scara assembly robot precision. the emulator testified that the error model and the correlative theory is legitimacy

    模擬結果驗證所建立的機器人位姿理論的正確性,位姿誤差補償、運動學參數優化分配方法對于提高機器人精度的實用性。
  5. The concept called parallel macro - micro robot is presented. two kinds of optimal disposing methods of the cables ? tensions are used to build the inverse kinematics model of cable and cabin system. the error compensation model of the fine tuning stewart platform is deduced

    本章提出了並聯宏-微機器人的概念及基於懸索張力均勻原則和懸索系統勢能最小原則的兩種索張力優化配置方案,並在此基礎上建立了並聯懸索系統的逆運動學模型,推導了動基座stewart平臺的誤差補償模型。
  6. Based on analyzing the recent research status and future developments of error compensation techniques for cmm in the world, non - rigid errors of cmm are analyzed by means of the stress distortion analysis for components of cmm bridge - type cmm, and a new idea for die error compensation of high precision cmm is provided

    本論文在分析目前國內外三坐標測量機測量誤差補償技術研究的現狀和發展趨勢的基礎上,通過對坐標測量機構件的受力變形建模分析,詳細研究了測量機非剛性效應運動,為高精度坐標測量機誤差補償技術奠定理論基礎。
  7. With the experiment part, the errors of sk - 21 nc machine tool have been measured, and a serial of data is gotten which lead to the error discrimination. ( 3 ) based on the kinematical theory of mbs, the calculation methods for the ideal center envelop curve of grinding wheel on cam grinding, the practical cutter track, inverse contour of cam, ideal nc instructions, precision nc instructions, the inner / outer normal and the fitting criterion of curve have been all discussed in detail in this paper

    ( 3 )通過精密加工的約束條件方程,探討理想刀具路線、逆變數控指令與實際刀具軌跡之間的映射關系,解決誤差補償技術提高加工精度的核心問題? ?當要求數控磨床的砂輪中心準確到達給定的理想點時,精密數控指令值究竟該是多少,如何能夠通過計算,獲得這樣的數控指令值,給出經修正的數控指令計算方法。
  8. We mainly discuss the methods of gmti, location, and the measure of velocity, the decrease of false alarm probability and the compensation for phase error

    主要研究mcarm數據動目標的檢測、定位和測速的方法,利用定位和測速信息進一步降低虛警概率的方法和相位誤差補償方法。
  9. In this dissertation, both single and complex driver - magnifier as a whole body is tested and studied by the tool of ansys for the deep analysis of kinemics, workspace, error analysis and compensation. and the method of helix - mechanism is induced to study the model accurately

    本文利用ansys工具對智能並聯微執行器驅動機構的柔性鉸鏈進行了分析與模擬,為並聯微操作機器人整體性能測試及分析,即微執行器的位置空間、運動學、誤差補償提供了基礎。
  10. In chapter 2, author points out firstly that the elastic deformation of elastic units of a robot ' s wrist force sensor will be enlarged by the end - effector, the instruments and the work pieces, so the elastic deformation of the sensor will influence the location accuracy or kinetic accuracy of end point of a robot, under the condition of that the robot technology facing the developing of heavy load, light mass and high accuracy. it is discussed respectively that the relationship between the differential kinemics in the sensor ' s coordinate and the location accuracy or kinetic accuracy of the end point. error matrixes of location and kinemics of the end point are presented respectively based on the differential kinemics in the sensor ' s coordinate, and the on - line error compensation methods are introduced subsequently

    第二章首先指出機器人腕力傳感器彈性體的彈性變形經過機器人末端連桿、工具、工件等的放大后,會對機器人末端精確定位和運動產生的影響;然後分別研究了傳感器坐標系內的微分運動與機器人末端工件精確定位、運動的關系;在此基礎上,研究了基於腕力傳感器彈性體微分運動的機器人末端定位、運動矩陣及其在線誤差補償方法;基於機器人動力學的機器人末端定位、運動矩陣及其在線誤差補償方法;最後,以puma型機器人為對象,給出了基於腕力傳感器內微分運動的機器人末端定位、運動及其在線方法的模擬實例:給出了基於機器人動力學的機器人末端定位、運動及其在線方法的模擬實例;模擬結果表明, 1 )基於腕力傳感器的機器人末端定位在腕力傳感器允許的載荷下可達十分之幾毫米級。
  11. And a novel method via initial determined error compensation is presented in order to reduce the influence of shop motion and lever - arm effect

    並提出了採用初始裝定誤差補償的方法消除船舶運動與桿臂效應對射擊的影響。
  12. 4. the compensation technology for non - linearity errors in heterodyne interferometry is studied

    式激光干涉儀非線性誤差補償技術研究。
  13. In the second chapter, we firstly present a circuit of 8 - bit, 80mhz samples / s thermometer - decoded dac with hierarchical symmetrical switching sequences which will compensate gradient error, on the basis of 8 - bit dac, we then present high frequency, high definition 12 - bit, 80mhz samples / s current - steering dac

    第二章:提出了具有梯度誤差補償的高速8位、 80mhz溫度計碼數模轉換器,並在此基礎上進一步提出了高速、高精度12位、 80mhz采樣率電流舵結構數模轉換器。
  14. Using the improved algorithm in edge location, the computing complexity is reduced by avoiding search efforts when using two dimensions error table, and the measuring accuracy is increased

    實驗數據表明,用函數對定位邊緣進行誤差補償不但避免了使用校正表帶來的復雜計算,而且重用性高,還大大提高了測量的精度。
  15. In order to accurately analyze the error in the non - orthogonal coordinate measuring system, the circular cylindrical coordinate measuring system is discussed first and the formula of its number of errors is computed, and then it extends to the non - orthogonal coordinate measuring system of n dimensions arms of robots, and build its error compensation modal, which is proved to have high precision

    為了正確分析非正交坐標系機械繫統的情況,本文先以柱坐標系測量系統為例。分析了引起測量系統示值的各種機構。並且分析得出其項數的計算公式,然後推廣到n維機器人手臂結構的非正交坐標系機械繫統,建立其誤差補償的數學模型。
  16. An error compensation modal of non - orthogonal coordinate measuring system is built in this paper, in which completely new thought is taken out : using the natural coordinate system combined with the spherical coordinate system to analyze the errors of non - orthogonal coordinates measuring system, in the result, it makes things simpler and not only find out the number of errors and the factors resulted in the errors, but also build the error compensation formula completely, which perfects the study of non - orthogonal coordinate measuring system " s errors

    本文建立了非正交坐標系機械繫統的誤差補償模型,提出了一種新的建模思想:在使用球坐標系的同時,巧妙結合自然坐標系。從而大大簡化了問題的難度,不僅正確地分析出非正交坐標系機械繫統的項數、各項的來源,還成功地建立了誤差補償公式,完善了對于非正交坐標系機械繫統的研究。
  17. This paper first researched the general situation of domestic and abroad developments in the field of ultra - precision aspheric surface machining technology and its numerical control system, analyzed the aspheric surface machining principle of ultra - precision machine, and in these bases, founded the kinematics model of ultra - precision machine in ideal condition using the homogeneous coordinate conversion method in robotics

    分析了本實驗室超精密機床非球面加工原理,在此基礎上應用機器人學中齊次坐標變換的方法建立了理想情況下超精密機床運動學模型,通過綜合分析超精密機床的運動,給出了超精密機床的誤差補償模型。
  18. 4. suboptimal fading ddf ( sfddf ) and suboptimal fading ukf ( sfukf ) algorithm can be obtained with the application of suboptimal fading ekf. suboptimal fading algorithm is an error compensative technology basing on the kalman filter orthogonality principle, which can greatly improve filtering precision and stability

    4 、把一種帶次優漸消因子的ekf演算法推廣到ddf和ukf演算法中,得到sfddf和sfukf演算法,次優漸消因子是一種基於kalman濾波正交原理誤差補償技術,它的引入較大的改善了濾波精度和演算法穩定性。
  19. In this paper, the application of dsp technology in electric power measurement meter has been studied, meanwhile analysed the error of the electronic energy meter, put forward the measure to compensate error with software method. it not only changes the precision degree of electric power measurement meter, but also avoids the disadvantage from error compensate with hardware method, it is unnecessary to adjust the sample value of voltage and electric current in circuitry

    對dsp技術在電度表中的應用進行了研究,對電度表系統的進行了分析,提出了採用軟體方法來的措施,使電度表的精度達到了設計要求,又避免了利用硬體進行誤差補償所帶來的弊端,不用在線路中調整電壓、電流采樣值,有利於生產。
  20. Then we use the data of corner position to adjust the first data we get by the fast aiming. using this method, we can improve the aiming speed and make the operators less tired. the measurement system could solve the dimension measurement problems in the transformer factories, and it can be applied to wider fields

    論文實現的攝像人工瞄準方法帶來的可控制在0 . 008mm范圍內,達到系統要求,具有實用價值;快速瞄準后自動誤差補償在選用合適的硬體后能大幅度提高瞄準速度,並能簡化機械設計。
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