結構控制器 的英文怎麼說

中文拼音 [jiēgòukòngzhì]
結構控制器 英文
structure controller
  • : 結動詞(長出果實或種子) bear (fruit); form (seed)
  • : Ⅰ動詞1 (構造; 組合) construct; form; compose 2 (結成) fabricate; make up 3 (建造; 架屋) bui...
  • : 動詞1 (告發;控告) accuse; charge 2 (控制) control; dominate 3 (使容器口兒朝下 讓裏面的液體慢...
  • : Ⅰ動詞1 (製造) make; manufacture 2 (擬訂; 規定) draw up; establish 3 (用強力約束; 限定; 管束...
  • : 名詞1. (器具) implement; utensil; ware 2. (器官) organ 3. (度量; 才能) capacity; talent 4. (姓氏) a surname
  • 結構 : 1 (各組成部分的搭配形式) structure; composition; construction; formation; constitution; fabric;...
  • 控制器 : controller; regulator; monitor; pilot; keyer; manipulator; control unit; control device; [自動化]...
  • 控制 : control; dominate; regulate; govern; manage; check; cybernate; manipulate; encraty; rule; rein; c...
  1. Robots. var iabl e st ruc t ure cont rol can adapt ively ( leal i th the uncertaint i es of system pal - tljllot e1 ' s and i tlt el - 1 ' eres f1 - om ol ] " l s i ( le

    滑模變結構控制器對系統本身的時變性和系統外部的擾動有完全的自律性,但滑模也有些不足,主要是顫振的存在,從而影響了系統的穩態性能。
  2. Cot1s i deri ng that t he exte ] - ioi - in t el - ference mai n1 y comes from t 11e sea fl o v l11elj i t i s un ( lel ' - i1 t el ", thi s nfr ) j { j1t i ; fi + lk, 7 : f } itft, ? } { t ! : i / cx pal7er veri fj ed t he st i ~ ol1g 1 ~ oi ) ust ness of th is fuxzy va1 - iilb1 e st l ' uctul ' c control method against the mode1 uncertainties and external disturhances, such as the variat ions of the sea current i s sdeed and direct ion, ancl it a1 so coinpared it se1f wi t. h the l > ji ) contl ~ o1 ler in comnlon use and the regu1ar variable structure contro11 er

    論文分別討論了潛縱向,橫向和航向三個子系統在不同條件下的問題,考慮到該潛潛航時外界干擾主要來自海流,驗證了模糊變方法對模型參數時變及海流速度、方向變化的強魯棒性,同時將該跟實際工程中常用的pid和常規的變結構控制器效果進行比較,並合實際情況,將該同縱傾調節相合進行以更好地滿足實際工程的需要。
  3. A comparative study and simulation of different control schemes, for the brushless motor variable - speed system, is presented. the simulation results show that, with the outer speed loop based on conventional proportional - integral controller, the dynamic performance of the system is not content, while with intelligence controller, the performance improves, and with variable - structure control with sliding mode, the system response influenced slightly by the vary of the system parameters

    本文還對無換向電動機雙閉環調速系統的不同方式進行了模擬比較,果表明:採用常規的pi轉速調節,系統的動態性能不是很好;採用簡單的轉速環智能,系統的動態性能能得到一定改善;採用轉速環滑模變結構控制器,系統的響應特性受系統參數變化的影響較小,具有優異的動態性能。
  4. Emelyanov. s. v ( 1998 ) studied the output feedback problem for the uncertain systems with exact linear model and constructed robust variable structure observer using descending - order observer method

    V ( 1998 )通過採用降階觀測,研究了帶有精確線性建模的不確定系統的輸出反饋問題,並設計了魯棒變結構控制器
  5. The system selects switching surface according to the approach of variable structure control. based on the control rules to design the variable structure controllers, the inner loop and the outer loop form a complete vsc control loop. the control system has switching surface and the system brings sliding along fixed desired trajectories

    根據滑模變方法選擇切換面,根據律,設計變結構控制器,使內環和外環合成為一個vsc,系統的有切換,而且在切換面上系統將會沿著固定的軌跡產生滑動運動。
  6. Then the sliding mode controller was designed based on the transformed system

    其次,在新坐標下,設計變結構控制器
  7. The problem of designing sliding mode controllers for a class of linear systems with time delays was concerned

    摘要研究了一類線性時滯系統的變結構控制器的設計問題。
  8. Because of its advantage of robustness and easy realization variable structure sliding mode control has been applied gradually in active power filter

    滑模變結構控制器具有魯棒性好、設計實現方便等優點,已被逐步應用於有源電網濾波的之中。
  9. Variable structure sliding mode controller has been applied gradually in the electric drives because of its advantage of robust and easy realization

    滑模變結構控制器由於具有響應快、魯棒性好、設計實現方便等優點,已被逐步應用於電力傳動領域。
  10. The original system with both input and state time delays was first rewritten into a form without any time delays by a nonsingular linear transformation

    為了簡化變結構控制器的設計,首先通過非奇異線性變換將含狀態時滯和輸入時滯的線性系統化為無時滯系統。
  11. The research on open architecture controller is the important trend in the field of advanced manufacturing technology and has made great progress during the last twenty years

    開放體系結構控制器的設計思想在上個世紀80年代提出,近20年間其研究取得了巨大進展。
  12. Based on feedback linearization in the nonlinear systems and variable - structure control theory in the linear system, a new nonlinear basic controller is designed

    並應用狀態反饋精確線性化方法與線性系統的變理論相合的方法,設計了新型非線性變結構控制器規律。
  13. By means of building modelling with the target angular displacement and its sliding model variable structure controller of transmission ratio control electromotor, the parameters of entire controller are defined

    通過對速比電機目標角位移、角位移滑模變結構控制器的建模,來確定整個的設計參數。
  14. Under different conditions, for example, with variable additional resists or system parameters, the system applies the variable structure controller to adjust the speed system with train. the results of simulation show the variable structure control can achieve a fast response, high stability under parametric variations and disturbances, with no overshoot. additionally, it has stability for the adjustment speed of atcs and provides the comfortable speed, for the travelers, and improves the system performance

    採用變理論分析在不同情況下,如附加阻力變化,系統參數變化等,模擬滑模變結構控制器的列車自動調速系統,模擬果表明,滑模變的列車自動調速系統能實現速度響應快、無超調,系統對參數的攝動和外部干擾不敏感,實現列車自動系統的速度調節的穩定性,保證旅客的舒適,改善了系統性能。
  15. In order to overcome the chattering phenomenon, a new approach with saturation boundary layer and adaptive variable structure control with twin - neuron ( avsct ) is proposed. the neuron adaptive psd intelligenc control algorithm is proposed for the first time in double adaptive neuron vsc controller and adopted method which separately adjusting learning rate in study of submarine combined maneuvering control system of near - surface

    針對變存在抖動的缺點,首次提出了用飽合邊界層和自適應雙神經元變結構控制器( adaptivevariablestructurecontrolwithtwin - neuron簡稱avsct )的設計方法,並將其應用於潛艇空間運動聯合系統中。
  16. A new thought of constructing copy - milling cnc system based on open architecture is advanced. in chapter two, the architecture of open cnc and the omac are studied. the omac is kept for reference for constructing the open cnc system

    第二章首先對開放式數系統體系進行分析和研究,並著重介紹開放的模塊化結構控制器( omac ) ,然後合所開發的數系統,對採用omac體系的開放式數系統進行了研究。
  17. An sm based identifier is presented to deal with the parameter identification problem for a class of parameter uncertain nonlinear dynamic systems with input nonlinearity. an smc algorithm is employed to ensure the global reaching condition of the sliding mode for the nonlinear system, and an identifier is designed to identify the uncertain parameters of the nonlinear system

    論文的主要內容如下:針對一類相對于輸入為非線性的系統,設計了滑模變結構控制器保證非線性系統的全局漸近穩定,在此基礎上,考慮到系統運行在滑模面上時所具有的特點,提出了一種基於滑模變的參數辨識方法來辨識非線性系統的未知參數。
  18. Th is paper introduced the fuzzy cont1fol into the variabl e st ruct ure control, hi ch combined the two control methods " nleri ts, real ize ( l the rapi d response, robustness of the systen1, and el iminated the chattering, thus provided a new method for the app1 icat ion of the variable structure contro1 and the fuzzy contro1

    本文採用在變結構控制器中引入模糊合兩種的優點,即保證了系統響應的快速性,魯棒性,又有效地消除了顫振,從而為變結構控制器和模糊的應用提供了一種新的思路。
  19. In the research of non - liner variable control methods, the paper brought forward a kind of variable structure control machine with time - changing, non - liner, " standard time optimization " on - off super curved surface. the automatic system designed had quick dynamics - respondence, little, powerful robu

    在非線性變方法研究中,本文提出了一種具有時變、非線性、 「準時間最優」開關超曲面的變結構控制器,由此所設計的系統動態響應速度快,超調小,魯棒性強,無穩態誤差。
  20. For the same model but assuming that the parameters of the linear parts unknown, wu yuqiang and xinghuo yu ( 1998 ) proposed a kind of new robust adaptive variable structure controller design algorithm

    Yuqiangwu和xinghuoyu ( 1998 )針對相同的模型但假設系統線性建模部分參數未知,利用輸入輸出信號給出了一種新的魯棒自適應變結構控制器設計策略
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