laser navigation 中文意思是什麼

laser navigation 解釋
激光導航
  • laser : n 鐳射激光,受激發射光,激光;萊塞;激光器,光激射器 ( = light amplification by stimulated emis...
  • navigation : n. 1. 航行;導航;領航;航海[航空]術。2. 〈集合詞〉船。3. 〈古語〉航路;海上交通。adj. -al
  1. Unmanned air vehicle ' s navigation and automatic accurate landing in all weather basd on infrared laser scan and computer vision

    基於激光掃描和計算機視覺的無人機全天候自主著陸導引技術
  2. The fusion of stereo vision and laser - radar ( ladar ) is also studied preliminarily in the background of alv navigation. by introducing the ladar data into the height prediction before matching, the fusion can occur on data layer. we have also found and practiced a feature layer fusion method based on dempster - shafer evidential reasoning approach

    將激光雷達的測量結果引入立體匹配前的高度預測中,提出了立體視覺與激光雷達在數據層上的信息融合方法;基於d - s證據理論,提出了立體視覺與激光雷達在特徵層上的信息融合方法。
  3. A laser gyro - sins gps integrated navigation system for field - test

    組合導航系統設計及實現
  4. Error analysis and simulation of ring laser gyro strapdown inertial navigation system

    激光陀螺捷聯慣性導航系統誤差分析及模擬計算
  5. Micromanipulation is an important emergency technology developed mainly over the past decade. the micro / nano manipulation systems have been widely applied to mems manufacturing, optical parts alignment, optical fiber connection, laser navigation, biomedical engineering and ic manufacturing

    在過去的十年中,微操作技術得到了飛速的發展,微操作系統在mems製造、光學調整、光纖作業、激光制導、生物醫療、 ic製造等領域得到了廣泛的應用。
  6. Study of target acquisition probability for laser - guided bombs with proportional navigation guidance law

    激光比例制導航彈對目標的捕獲概率分析
  7. As vital integral part of the laser gyro navigation system design, the study in the paper solved technical problems such as outcome distortion or even system failure resulted from bad dynamic performance of bracket and isolation device structure

    通過本文的研究,成功解決了激光陀螺儀定位系統工作中,因支架與隔振裝置結構動態性能差而出現的結果失真及至死機的技術問題。
  8. The rotation control technology in the laser gyro strapdown inertial navigation system was studied. the method of realizing closed - loop digital control with rlg located in the strapdown inertial navigation system was discussed. the structure of rotation servo system was introduced. the designing method and process of the digital controller were given. the method of implementing digital controllers by means of computer and software flow were demonstrated. the result of simulation and debugging of this system showed that it fullfills the requirment of the strapdown inertial navigation system. it assures the stability of rotation and solves the problem of striking without increasing the volume and cost of the system

    研究激光捷聯慣導系統中的轉位控制技術.採用捷聯慣導系統本身的rlg實現轉位系統的閉環數字控制,給出了轉位伺服系統的結構組成以及數字控制器的設計方法和設計過程,給出了數字控制器的計算機實現方法和軟體流程.模擬及調試結果表明,所設計的轉位伺服系統滿足捷聯慣導系統的要求,既保證了轉動的平穩性,克服了到位撞擊問題,又不增大體積、增加成本
  9. The following important work has been done : ( 1 ) some special problems of rate - bias laser gyro were analysed. the problems include modulation and demodulation of the output and algorithm of the attitude updates ; ( 2 ) the integrated navigation system with the fault tolerance property which equipped with many navigation equipments as sins, gps, dvs, ads, mg, vg is designed, and compared with that of ckf via simulations ; ( 3 ) the theories and methods of system level fault detection apply to federated filtering is investigated ; ( 4 ) the problem about using the fused information of sins based on rate - bias laser gyroscope / dynamical tune gyroscope to realize the component level hard fault interactions detection through a back - propagation neural network is discussed

    主要研究工作有:研究了速率偏頻激光捷聯慣導的陀螺測量信號的解調演算法;設計了在速率偏頻激光捷聯慣導、 gps 、多普勒雷達、大氣數據系統、磁航向儀及垂直陀螺配備條件下聯邦濾波組合導航系統,對聯邦濾波器和集中濾波器的性能做了模擬對比分析;研究了適用於聯邦濾波器的系統級故障理論和方法;探討了利用速率偏頻激光捷聯慣導撓性捷聯慣導陀螺的混合測量信息,通過神經網路實現硬故障交互檢測的方法。
  10. The landing site coordinate system is first defined from the image coordinates of three feature points obtained using an optical navigation camera and the distances from the spacecraft to each fp measured using a laser range finder

    首先利用特徵點的圖像坐標和探測器到三個特徵點的距離信息構建了著陸點坐標系,確定了探測器相對著陸點坐標系的位置和姿態。
  11. Systematic calibration for inertial instruments errors in laser gyro strapdown inertial navigation system

    激光陀螺捷聯慣導系統中慣性器件誤差的系統級標定
  12. Being the main aspect of inertial navigation system, strapdown inertial navigation system ( sins ) based on ring laser gyroscope ( rlg ) has been applied in the refitment of service weapons and the development of new weapons

    激光陀螺捷聯慣導系統是當今慣導系統發展的主要方向之一,已經廣泛地應用於現役武器裝備改造和新型武器系統研製過程。
  13. The accelerometer can be used in aeronautics and astronautics, inertial navigation, seismic inspection and petroleum exploitation, etc., so the research on the laser accelerometer based on psd is significant

    該加速度計可用於航空航天、慣性導航、武器引爆、汽車安全行駛、地震檢測和石油開采等多個領域,不僅具有重要的科學意義,更具有廣闊的應用價值。
  14. As an ideal part of inertia navigation, the mechanically dithered ring laser gyro ( mdrlg ) has a lot of characters, such as low cost, long life, good reliability, large dynamic range and so on

    機械抖動激光陀螺作為慣性導航的一種理想器件,具有成本低、壽命長、可靠性高、動態范圍大等優點,有極大的研究價值和廣闊的應用前景。
  15. As one of the most idealist components in the strap - down inertial navigation system, the ring laser gyro are studied by many countries in the world, but the laser gyro technology in our country are following behind some advanced countries

    由於環形激光陀螺是目前捷聯慣導系統最理想的部件之一,世間各國都投入大量的人力物力對其進行研究,而國內激光陀螺技術與國外先進技術還有較大差距。
  16. Study on noncommutativity errors correction algorithms of laser strapdown inertial navigation system

    激光捷聯慣性導航中不可交換性誤差補償演算法研究
  17. In these locating methods, laser global location and vision tech are new ones. this paper is based on mobile robot of robotics laboratory of chinese academy of science and studies the location problem of intelligent navigation system of autonomous mobile robot ( amr )

    本文以中國科學院機器人學開放研究實驗室移動機器人系統為背景,在自行設計和開發的自主移動機器人激光全局定位系統和基於多線陣像機的視覺空間定位系統基礎上。
  18. The laser gyro navigation system has strict requirement on structural dynamic performance while in working for its sensitivity to vibration

    激光陀螺儀定位系統工作時對振動非常敏感,對系統結構的動態性能要求很高。
  19. Laser gyro inertial navigation system in land vechicle required some character such as high precision and high stability and credibility and light weight. so nicer dynamic characteristics becomes main important requirement of the system

    車載激光陀螺儀慣性定向系統要求具有高精密、高穩定性、高可靠性、輕量化等特性,因此良好的系統動態性能成為系統的重要的性能指標。
  20. Because of systemic and embedded research of this paper, some achievements are obtained and key technologic problem of laser gyro inertial navigation system are resolved. this paper have reference value for inertial navigation system

    通過本文系統與深入的研究,取得了一定的成果,有效地解決了車載激光陀螺儀慣性定向系統中存在的關鍵技術問題,為同類型產品的設計提供了一個可行的設計方法。
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