代用舵 的英文怎麼說
中文拼音 [dàiyòngduò]
代用舵
英文
substitute rudder-
Steering by automatic pilot and by magnetic compass in stead of automatic pilot, measure the exactness of magnetic compass by qualified calibrator and provide compass adjustment card
自動駕駛儀操舵和用磁羅經代替自動駕駛儀,通過合格的校準器來測定羅經的正確功能並提供羅經校正卡。It has the characteristic of non - gear - box, large output torque, small volume, easy control, fast response, high track precision, high reliability etc. the system has potential advantages over substituting for traditional hydraulic or pneumatic missile actuator servo control system and has wide prospect in the fields of aerial actuator, servo valve, robot, radar antenna etc. the system ' s operation principle, control idea, functions and realization of each component are discussed in detail
該系統在取代傳統的液壓、氣動導彈舵機伺服控制系統方面有很大潛力,同時在航空舵機、伺服閥,以及機器人關節的直接驅動、雷達天線等領域具有廣闊的應用前景。論文詳述了系統的工作原理與控制思想,以及系統方案的設計和各組成部分的功能與實現方法。Firstly, while the nominal model is used, the filtering effect is very good. secondly, when the system model is n ' t definite, the filtered heading angle and rudder angle are steady in the error range. finally, when the complicated nonlinear wave model replaces the linear wave model, the filtering effect is also steady, and the estimate precision is high
首先,模擬是在名義模型的情況下進行的,此時h _濾波器的濾波效果很好;其次,我們在系統模型具有攝動的情況下進行模擬,此時經h _濾波器濾波后的航向輸出和舵令輸出基本能夠達到穩定;最後,我們採用較復雜的非線性海浪模型代替線性海浪模型進行模擬, h _濾波器的濾波效果也是比較穩定的,並且估計精度較高。Later on the base of development of electronics and its application, pid steer appeared which integrated control technology and electronic parts. in the late 1960 ' s, adaptive theory and computer technology developed speedily, then adaptive steer came forth by using adaptive theory in shipping maneuvering. neither pid steer nor adaptive steer shares the character flaws, which results in unassuring effects
后來隨著電子學和伺服機構理論的發展和應用,集控制技術和電子器件的發展成果於一體,出現了pid操舵儀; 20世紀60年代末,由於自適應理論和計算機技術得到了發展,將自適應理論引入船舶操縱成為可能,於是形成了自適應自動舵。In this paper, the backward simulation was summarizd at home andabroad, the characteristics of shell nosing were introduced, the theory and scheme of backward simul - ation of shell nosing was constructed, the determined methods of the boundary conditions were put forward in backward simulation for the processes of shell nosing
論述了推力矢量控制技術是提高空空導彈性能的核心技術,介紹了常用的三類推力矢量裝置,著重討論了燃氣舵式和擾流片式推矢裝置的特點、設計方法、性能及其優缺點.在此基礎上,研究了適用於氣動力/推力矢量復合控制的變結構控制系統及其開關函數的切換條件和飛行控制系統框圖.最後綜述了推力矢量裝置在第四代空空導彈上的應用情況分享友人