moving platform 中文意思是什麼

moving platform 解釋
自動搬運臺。

  • moving : n. 1. 活動,移動;煽動,感動。2. 〈pl. 〉〈口語〉電影。adj. 1. 動的;移動的。2. 使人感動的,動人的。3. 主動的,原動力的。
  • platform : n 1 臺,壇;講壇,主席臺。2 步廊;〈英國〉(車站的)月臺,站臺;〈美國〉(客車的)上下步梯;樓梯...
  1. Selections. - stationary seat provides user security while the moving platform provides significantly reduced

    -固定的座椅讓用者感安心,而滑動的
  2. We also analyze the singularities of stewart parallel manipulators with irregular tri angle moving platform or spherical basic platform simply

    簡單分析了不規則三角平臺stewart機構和球臺機構的奇異。
  3. It has been reported that a traffic accident occurred when i - beams fell out from a moving platform truck which had been converted from a container truck

    據報,一輛由貨櫃車改裝而成的開斗貨車在運送工字鐵途中,貨物滑出車斗,造成交通意外。
  4. The structure of the fixed platform module and the moving platform module is relatively simple, and can be designed to various types according to the practical need

    運動平臺模塊和靜止平臺模塊的結構形式比較簡單,根據不同的需要其結構可以成各種形式。
  5. So the realization of target detection on the condition of moving platform becomes one of the key techniques which must be solved in the development of hf sswothr

    因此,如何實現在平臺運動條件下的目標檢測,就成了研製高頻地波艦載oth雷達必須解決的重要關鍵技術之一。
  6. The parallel manipulator is composed of legs, the fixed platform, the moving platform, so the innovation of new parallel mechanism should be starting from analysis of the legs

    並聯機構是由支鏈、運動平臺和靜止平臺組成,故並聯機構的創新研究主要應從支鏈分析入手。
  7. The position and orientation errors of moving platform are affected by driving bar errors, the structure errors of platform and the clearance errors of spherical joints

    由誤差關系式可以知道,動平臺的位姿誤差受到驅動桿長誤差、平臺結構誤差和球鉸間隙誤差的綜合影響。
  8. In the process of accuracy synthesis, monte carlo method is used for calculating the moving platform ' s mean error. the results show that this method is simply and easy to program

    在精度綜合工作中,本文提出一種基於蒙特卡洛方法的精度綜合方法,利用該方法能較好地選擇鉸鏈的配合精度。
  9. Based on the inverse resolution kinematics models of the three - transferable and one rotational parallel kinematics platform we analyzed the factors restricting motion of the moving platform in the models

    在三平移一轉動並聯平臺位置反解模型基礎上,分析了反解模型中約束動平臺運動的因素。
  10. In this paper, the mechanismic module of modular and reconfigurable parallel is classified into three basic modules, the fixed platform module, the moving platform module and the leg module

    本文把可重組模塊化並聯機器人從整體上分為三大模塊進行研究,一是靜止平臺模塊,二是支鏈模塊,三是運動平臺模塊。
  11. Secondly, in phase unwrapping to overcome the spread of wrong point, changing the patch of unwrapping phase is done to improve the correctness of it. then, the relation between the unwrapping phase and the height of reconstructed object is discussed detailedly. the data processing, algorithm analysis and reconstructing object are done for the collecting fringe image which are all based on matlab language, in all these achievements, the improvement and innovation aspect are following : a ) in order to stabilize the interference fringe, a new equivalent shifting object method is presented by using fringe stabilizing device to stabilize the interference fringe though moving object and ccd camera which fixed on a precise moving platform together, the experimental result shows the fringe drift is less than a / 20 in five minutes, and the equivalent phase shifting precision is x / 100

    論文在全面闡述了光學三維輪廓位相測量術的發展、應用現狀、研究熱點及未來發展趨勢的基礎上,簡要介紹了傅立葉變換和相移位相輪廓測量術的基本原理,對兩種測量方法存在的問題及誤差進行詳細分析和比較;針對位相解包裹錯誤點的傳播問題,作者通過改變解包裹路徑來提高位相解包裹的正確性;分析討論從解包裹位相( x , y )到再現物體的高度h ( x , y )物理量之間的關系,研究相應的演算法,利用matlab平臺,對實際採集的條紋圖像進行處理和輪廓重構,其中改進及創新工作主要表現在以下兩個方面: ( a )針對干涉型結構光場干涉條紋出現的漂移抖動對相移的影響,提出了一種用條紋穩定器穩定干涉條紋,用精密移動平臺使物體和ccd攝像頭同步移動實現等效相移的方法,建立了相應的測量系統,系統的條紋穩定可以達到。
  12. Because the air - borne imaging system is required a far acting distance and the focal length of its optical system is long. influenced by the unsteady or moving platform mounted on plane, the change between the frames of image sequence is more. problems of image fuzziness and instability tend to be striking out, which becomes a bottleneck restricting the air - borne reconnaissance, collimation, evaluating beat effect

    機載光電成像系統,由於要求作用距離遠,故其光學系統焦距長,受其載體姿態變化和振動的影響,圖像序列幀間變化過大,造成觀察者覺得模糊、不穩定,己成為制約空中偵察、瞄準、打擊效果評估等功能的瓶頸。
  13. Simulation result shows that although all structural error of virtual axis machine tool can not be identified completely while the moving platform moves inside its working space, the moving platform kinematic accuracy is fulfilled inside the whole working space after error compensation

    模擬結果表明,雖然在虛軸機床的工作空間里無法將其可能存在的結構誤差全部求出來,但計算結果完全可以滿足機床在工作空間里的運動精度要求。
  14. When the moving platform is in horizontal posture, the rank primary element crout solution is employed and the analytic solutions of errors dispersion is extracted, the nonsingular coefficient matrix is also proved

    當活動平臺處於水平姿態時,應用列主元crout分解法解出了誤差分佈解析解,並證明了系數矩陣是非奇異的。
  15. Aimed at a kind of new typed 6 - prrs parallel robot, this paper studied the influence on its working space affected by the variation of structural parameters of the long rod, short rod, fixed platform and moving platform of this mechanism

    摘要針對一種新構型的6 - prrs並聯機器人,研究了該機構中長桿、短桿、固定平臺、動平臺結構參數的變化對其工作空間的影響。
  16. In this paper, accuracy design is completed through two steps : first, we analyze the error of parallel machine tool, the joints " gap are considered by using monte carlo method, also in mis part, three kinds of error sensitivity are established to wholly reflect the error of moving platform

    在並聯機床的精度設計部分,本文在並聯機床的幾何誤差模型基礎上,利用蒙特卡洛方法綜合分析了包括鉸鏈間隙的各項誤差源對加工誤差的影響,並建立了三類誤差敏感度以全面評估並聯機床的精度特點。
  17. When the joints " distribution of the fixed platform and the moving platform are equal, judge the location is or not singularity. regard the determinant values of the jacobian matrix in flexible workspace as estimate guideline, which reduces extremely calculation that has been implemented in the singularity analyses of the 5 - dof parallel mechanism

    本文在靈活工作空間內以雅克比矩陣的行列式值作為評價指標,驗證當定平臺和動平臺都是均布時機構是否處于奇異位形,並在整個工作空間中搜索大大減少對並聯機床奇異位形分析的工作量。
  18. 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。
  19. By adopting the partial coordinates system and the turning angle of globe hinge the position of moving platform was described, and the influence on working space of parallel robot affected by factors of turning angle of motion pair, rod length and interference of branch chain etc. was analyzed

    摘要選用局部坐標系和球鉸的轉角描述了動平臺的位置,分析了運動副轉角、桿長、支鏈干涉等因素對並聯機器人工作空間的影響。
  20. According to the analyzing results upwards, the author completed trajectory plan for the moving platform, analyzed conditions avoiding obstacles when the robot is moving, and completed trajectory plan for the mechanical arm based on joint - space and descartes - space according robot ’ s assignments

    機械臂的運動學和動力學分析之後,對全方位輪式移動機構進行了定位分析,建立運動模型和基本動作規則庫,並對全方位輪式移動機構進行路徑規劃。
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