alignment sensor 中文意思是什麼
alignment sensor
解釋
定位傳感器-
In the wafer - cycle fitting algorithm, comparing with circumgyration radius approach, track fitting approach, and least square circle fitting approach. in the wafer pre - alignment system, the wafer square fitting algorithm - least square circle fitting approach, based on optical linear ccd sensor, as well as the theoretical error analyze of this algorithm
在晶圓檢測演算法方面,比較回轉半徑法、軌跡擬合法以及最小二乘圓法,選擇光學線陣ccd的晶圓圓心最小二乘圓法作為系統晶圓圓心的檢測方法。 -
By means of temporary stability of combining drift coefficient of angle sensor and through missile rotating two - position measurement, measuring rotating angle between the two positions by vertical sensitive axis x, and sensing the changes of ground velocity component between the two positions by horizontal sensitive axis and z, the position of the component is determined to realize the azimuth alignment before launch of tactical missile
角敏感元件漂移系數具有短期穩定性,通過轉彈前後兩位置對組合的測試,垂直敏感軸計測轉彈過程中兩位置之間的轉角,兩水平敏感軸敏感計測地速分量在前後兩位置的變化,由此計算出部件當前所在方位,從而實現戰術彈射前的方位對準。 -
Axis - misalignment error compensation method based on optical alignment for a multi - sensor assembly
基於光對準的多傳感器軸裝配誤差補償技術 -
A registration algorithm for sensor alignment based on stochastic fuzzy neural network ( snff ) is presented
提出了基於隨機神經網路的傳感器配準方法。 -
Time alignment matching between the primary variables and the process variables is an important part of the soft sensor technology
主導變量與過程變量之間的時序匹配是軟測量技術不可缺少的組成部分。 -
3. based on the characteristic of the sensor distribution inside a platform, a sensor registration model for single - platform alignment is given. with the taylor series, we can get the first - order approximation of the registration model
根據平臺內傳感器空間布局特點給出平臺級傳感器的配準模型,並對配準模型進行一階近似,最後通過kalman濾波演算法求出系統偏差的估計。 -
2. the conception of the platform alignment and system alignment is presented for multi - platform multi - sensor and multi - source information fusion with systematic temporal and spatial alignment based on the different spatial distributions between single - platform and multi - platforms. to do as this, we can deal with different problem with different alignment approaches, and it is propitious to solve the problem
針對單平臺和多平臺傳感器空間布局的不同特點,提出了多平臺多傳感器信息融合系統傳感器時空配準的平臺級配準和系統級配準概念,使得我們在處理不同問題時採用不同的配準方法,更有利於問題的解決。 -
The system error is mainly determined by sensor error and initial alignment error by analyzing the error transfer characteristic of the sins system. after compensating the sensor error, the precision of the whole system almost remains the initial alignment process. it should include of gyroscope and speedmeter to compensate the error
通過對sins系統的誤差傳播特性分析可以發現,系統的誤差主要由傳感器誤差和初始對準誤差決定,在對傳感器誤差進行補償之後,整個系統的精度幾乎就保持在初始對準的精度上;另外,在初始對準過程中還包含陀螺和加速度計的測漂和定標工作,以便進行誤差補償。 -
Different filtering methods have been tested to examine the effects of all kinds of filters. the correction of inertial sensor errors, navigation algorithm, coning motion, and sculling motion have also been investigated. based on the above works, the initial alignment on stationary base using imu with mdrlg has been carried out, and an usable navigation software has been completed
對機抖激光陀螺引起的高頻振動的補償方法進行了研究,對不同的濾波方法進行了試驗;對機抖激光陀螺捷聯系統的儀表誤差補償、導航解算演算法、圓錐補償演算法和劃槳效應補償方法進行了研究;對靜基座條件下機抖激光陀螺捷聯慣導系統的初始對準方法進行了研究,編寫了實用的導航軟體。
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