速度反饋系統 的英文怎麼說
中文拼音 [sùdùfǎnkuìxìtǒng]
速度反饋系統
英文
rate feedback system- 速 : Ⅰ形容詞(迅速; 快) fast; rapid; quick; speedy Ⅱ名詞1 (速度) speed; velocity 2 (姓氏) a surna...
- 度 : 度動詞[書面語] (推測; 估計) surmise; estimate
- 反 : Ⅰ名詞1 (方向相背) reverse side 2 (造反) rebellion 3 (指反革命、反動派) counterrevolutionari...
- 饋 : 動詞(饋贈) make a present of
- 系 : 系動詞(打結; 扣) tie; fasten; do up; button up
- 統 : Ⅰ名詞1 (事物間連續的關系) interconnected system 2 (衣服等的筒狀部分) any tube shaped part of ...
- 速度 : 1. [物理學] velocity; speed; blast; bat 2. [音樂] tempo3. (快慢的程度) speed; rate; pace; tempo
- 系統 : 1. (按一定關系組成的同類事物) system 2. (有條理的;有系統的) systematic
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The feedbacks of position, velocity, acceleration and dynamic pressure were applied to adjust the model, so the control system of single jar electrodraulic servo mechanism was built. to reduce the system error and interference error, the compound control was designed. the results of simulations showed that the magnitude attenuation and phase lag of the system come to the project demand
引入包括位置反饋、速度反饋、加速度反饋和動壓反饋在內的反饋控制技術對電液伺服驅動機構模型進行綜合校正,從而建立單缸電液伺服控制系統,並在分析系統誤差和擾動誤差后,加入復合控制減小系統誤差和抑制干擾,模擬結果表明復合控制系統的控製品質有了明顯改善,能夠滿足工程需求。Secondly, the effectiveness and limitation of the classical perturbation, such as the method of multiple scales and the poincare - lindstedt method, are discussed in detail through a duffing oscillator with delayed velocity feedback. it is shown that the two perturbation methods are effective only in solving the approximate solution of the first two orders. an ambiguity or paradox will be encountered when they are used to seeking for the third or higher order approximation of solution
其次,以一具有時滯速度反饋的duffing系統為例,研究了經典攝動法如多尺度法, poincar - lindstedt法等在求解時滯微分方程級數解時的適用性和局限性問題,指出利用這些方法只能有效求得系統的前兩階近似解,而在求系統的三次以上近似解時會出現矛盾或二義性。In this system, the closed loop is composed of velocity measurement machine used as velocity feedback and coder used as position feedback, the feed - forward signal of ship swaying is measured by rate gyro
該系統用測速機構成閉環,作速度反饋,編碼器作位置反饋,速率陀螺測量並前饋艦船搖速度信號。Ad2s81a, r / d converter of analog devices inc., is chosen to substitute for the velocity measuring dynamo to gain the speed feedback signal. it reduces the system dimension and improves the system reliability
選用美國模擬器件公司的r d轉換器ad2s81a代替測速發電機的功能獲得速度反饋信號,減小了系統體積,提高了系統可靠性。Effects of time delayed velocity feedbacks on self - sustained oscillator with excitation
時滯速度反饋對強迫自持系統動力學行為的影響The aerodynamics subsystem is designed employing classical control methodology, including the inner loop which adopt angular rate feedback to stabilizing the attitude, and the outer loop which track the guidance command, and the proper emendation nets are designed for each loop
採用古典控制理論來設計氣動力控制系統,包括具有角速度反饋的穩定內迴路、跟蹤制導指令的外迴路以及各校正環節的設計。First of all, the method of fredholm alternative is used to obtain the approximate solution of the first order for the bifurcating periodic solutions of a nonlinear system with delayed velocity feedback. the bifurcation direction and the stability of the bifurcating periodic solution are also determined
首先,用fredholm擇一方法分析了一具有時滯速度反饋的非線性振動系統的hopf分叉,得到了局部分叉周期解的近似表達式,確定了分叉解的分叉方向及穩定性。Then the response calculation formulas of ihb method and the influence of several parameters " changing on the system response are shown in this article. active control method is used in dry friction system at last in the third chapter. on the feedback of speed and acceleration, the active force is applied in accessory structure and main structure separately, the influence of active force is analyzed too
附加子結構法( tmd )是結構抗振的常用的方法之一,文中接著將tmd引入干摩擦抗振系統中,首次提出具有附加子結構的干摩擦抗振系統,並詳細給出了其ihb響應求解的具體公式,分析了各個參數變化對系統響應的影響,然後將主動控制概念引入具有tmd的干摩擦抗振系統中,在速度和加速度反饋的基礎上,將主動控制力分別施加於附加結構和主體結構,分析了它們對系統響應的影響。Chapter 2 describes the working theory of the hydraulic elevator control system, and introduces the components of this system, especially the vsvii integrated valve, which could be regulated by the controller of single chip processor with flexible control strategy. also the mathematical models for the hydraulic elevator control system with vsv ii valve are derived and the simulation is made
論文的第二章主要介紹採用轎廂速度反饋電液比例控制的液壓電梯的工作原理,分析了本課題所採用的控制系統的各個組成部分,特別介紹了本課題組自行研製的vsv型液壓電梯專用比例閥和計算機監測系統,並對液壓電梯速度控制系統進行了建模和模擬。While in a high performance speed closed - loop control system, the speed signal is essential for the feedback
然而在一個高性能的速度閉環控制系統中,速度反饋信號又是必須的。Hydraulic elevator is a typical electrohydraulic control system, and the speed feedback control method is advanced technology
液壓電梯是一種典型的電液速度控制系統,直接轎廂速度反饋控制是一項先進的技術。Results of the experiment indicate that with speed sensor, the algorithm described in this paper can achieve favorable result, and the system has good torque response as well as smooth speed response
實驗結果表明,在有速度反饋時本文提出的控制方法能取得較好的控制效果,控制系統啟動快,電機轉速平穩,噪音小。At last, the stability switches of equilibrium and the global diagrams of bifurcation for a duffing oscillator with both delayed velocity feedback and delayed displacement feedback are studied by using the similar method as above
最後,研究了時滯位移反饋與時滯速度反饋聯合作用下duffing系統的平衡點的穩定性切換及全局hopf分叉。In part iv, time forward observer is used to predict states of the slave. moreover, force, position and velocity feedback is proposed to design the system. feedback parameters are solved through linear matrix inequalities
第四部分提出用時間前向觀測器預測從手狀態,用力、位置和速度反饋消除或減小時延對系統影響的方法,並對反饋參數的設計進行分析。Firstly, for the intelligent structure ' s active bars, a constant output velocity feedback control law is dissipation energy due to control action and the optimal mathematical model with the reliability constraints on dynamic stress and displacement was built
以直接輸出速度反饋作為閉環控制律,基於最大耗散能準則,建立了以主動桿配置位置和控制系統增益為設計變量,具有動力響應(應力響應和位移響應)可靠性約束的壓電智能桁架結構主動桿優化配置的數學模型。By analyzing on the forced vibrations of the automobile suspension system under the single - frequency sinusoidal motivation of the road surface, this paper reveals the possibility of the chaotic movement existing in the system, and in terms of this view point, this kind of chaotic behaviors can he controlled by using the speed feedback control method, and it also provides the academic basis for using the chaos sequence
分析了汽車懸架系統在路面單頻周期激勵下的受迫振動,揭示了該系統振動存在混沌的可能性,並在此基礎上,利用速度反饋控制方法對這類混沌行為進行了控制,為利用混沌序列提供了理論基礎。In part iii, memory position and velocity feedback is proposed to guarantee stability and transparency of a teleoperation robot system with time delay and uncertain parameters. linear matrix inequality is used to design feedback parameters of the system. in this way, static track error between the master and the slave is little, however, sometimes the feedback parameters does n ' t exist
第三部分針對遙操作機器人系統傳輸通道中的通訊時延和系統模型的不確定性,造成系統不穩定和操作性能降低等問題,提出用帶記憶的位置和速度反饋控制方法,並用線性矩陣不等式對系統的反饋參數進行設計,使系統魯棒漸近穩定,主、從機械手靜態跟蹤誤差較小,而且使系統具有良好的透明性。In allusion to the coupling influence to system accuracy, this paper brings forward using dynamic robust compensation based on decoupling control. simulation experiments to prove its validity. in allusion to the performance index of simulation table, such as low velocity, high frequency response, high accuracy, etc, this paper analyzes pid control, acceleration feedback, velocity feedback, input signal differential feedforward, and employs compound control strategy including pid control, velocity feedback, position feedback and input signal differential feedforward,
針對模擬轉臺低速、高頻響、高精度等性能指標的要求,分析了pid控制策略、加速度反饋、速度反饋、輸入信號微分前饋等控制方式,採用pid控制與速度反饋、位置反饋以及輸入信號的微分前饋結合起來的復合控制策略,充分利用反饋和前饋的優勢,對轉臺的位置伺服系統進行研究。The experimentation result of design and emulation argues that the conventional single - loop pid control is feasible in control precision and response speed, but on the other hand this control method makes the platform system lack of desirable disturbance rejection. but then the problem is solved by double - loop control method which introduces speed feedback into the system
通過設計和模擬,驗證了傳統的單閉環經典pid控制規律在控制精度、響應速度方面的可行性,並通過引入速度反饋的雙閉環控制,克服了單閉環系統在抗干擾性能方面的欠缺。Lastly the nonlinearity of armature reaction of the dc motor is considered, a variable structure controller is designed based on the feedback linearization method, moreover, a robust controller is designed which can restrain the uncertainty bought by the load disturbance and the nonlinearity of armature reaction simultaneously
最後,針對直流電機速度控制系統存在電樞反應非線性,設計了基於反饋線性化的變結構魯棒控制器和一種能同時滿足抑制負載擾動和電樞反應非線性引起的不確定的魯棒控制器。分享友人