differential feedback control 中文意思是什麼

differential feedback control 解釋
差別反饋控制
  • differential : adj 1 差別的,區別的;特定的。2 【數學】微分的。3 【物、機】差動的,差速的,差示的。n 1 (鐵路不...
  • feedback : 反饋的信息
  • control : n 1 支配,管理,管制,統制,控制;監督。2 抑制(力);壓制,節制,拘束;【農業】防治。3 檢查;核...
  1. To overcome the shortcomings of differential geometry method in the respect of invertibility and dynamic state feedback, this paper discuss algebra control method. combining linear algebra with dynamic expansion, one method can decouple the nonlinearity through construct the root of nonlinear system by dynamic expanding

    一種方法是採用線性代數理論與動態擴張演算法相結合來對非線性系統進行解耦分析,通過運用動態擴張演算法來構造非線性系統的根而達到對非線性系統解耦控制的目的。
  2. The platform is widely applied in precision engineering, ultraprecision machining and et al, which consists of a mechanical elastomer, two piezoelectric actuators, two driving circuits based on charge - feedback, two linear variable differential transformers, and a numerical control device based on c8051f021

    該平臺主要由機械彈性體、壓電作動器、壓電作動器驅動電路及電荷反饋迴路、差動變壓器測微儀和c8051f021單片機控制裝置等構成。
  3. First of all, a chaos control method based on variable ' s differential feedback is presented and applied to control chaos on chaotic chua ' s circuit. and then based on this chaos control method, two schematic circuits are designed, i. e. continuous differential feedback realization and impulse differential feedback realization. the circuit simulations are consistent with the theoretical analysis and numerical simulations

    首先針對混沌chua電路提出了應用變量的微分反饋控制混沌的方法,並設計了基於該方法的兩種電路實現方案,即連續微分反饋控制電路實現和脈沖微分控制電路實現,電路模擬的結果與理論分析和數值模擬具有很好的一致性。
  4. A comparative study of two decoupling control methods based on vector control and nonlinear multi - input - multi - output state - feedback based on theory of differential geometry is researched

    摘要對異步電動機的矢量控制和基於微分幾何理論的非線性多輸入多輸出狀態反饋兩種解耦控制方案作理論和試驗比較研究。
  5. 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。
  6. The proportional - integral - differential ( pid ) controlling method was employed to realize feedback control of the z piezo. we designed the a / d & d / a interfaces for controlling and data acquisition, and further compiled the powerful software system for con

    實現了卓越的afm性能,其解析度達到橫向0 . inm 、縱向優於0 . inm ,在士150v的掃描控制電壓下,最大掃描范圍達到10娜火10泌,提高掃描電壓,可進一步擴大掃描范圍。
  7. Based on differential geometry theory, sufficient and necessary conditions are derived for the existence of the state feedback control laws

    基於微分幾何理論,給出該狀態反饋控制規律存在的充分必要條件。
  8. It is found that when the switch s is on, the capacity charges too fast is the main reason why generating chaos in the circuit. then based on above analysis, we present the method of using output voltage pulse differential feedback to control chaos in the buck converter. theoretical analysis, numerical calculation and circuit simulation demonstrate the validity of this chaos control method

    首先研究了脈寬調制式的buck變換器中混沌產生的原因,研究發現開關s導通時,電容充電過快是這類電路中混沌產生的主要原因,在此基礎上提出了應用脈沖微分反饋控制buck變換器的混沌,並設計了控制電路,數值模擬和電路模擬的結果證實了該混沌控制方法的有效性。
  9. Combining fuzzy t - s model and adaptive fuzzy logic systems, this paper presents an observer - based fuzzy adaptive control scheme for complex nonlinear systems. meanwhile, the fuzzy adaptive technique, the robust control technique and the differential - geometry - based feedback linearization theory are synthesized organically, this paper presents an adaptive fuzzy tracking control scheme for complex nonlinear systems. finally, a fuzzy reconfigurable control scheme is presented for complex nonlinear systems

    文中將模糊t - s模型和自適應模糊邏輯系統有機結合,提出了一套比較實用的基於觀測器的復雜非線性系統的模糊自適應控制方案;同時,將模糊自適應技術、魯棒控制技術和微分幾何反饋線性化理論結合起來,提出了一種復雜非線性系統的自適應模糊跟蹤控制方案;最後,針對復雜非線性系統,給出了一種模糊重構控制方案。
  10. Then, chaos control on hyper - chaotic chua ' s circuit is studied using feedback method of variables " proportional and differential. it is demonstrated that instead of feeding back one system variable to control chaos it needs at least two system variables to control hyper - chaos

    接著研究了超混沌chua電路的混沌控制,研究發現單變量的比例微分控制對超混沌的控制是不充分的,既至少需要應用兩個變量的比例微分反饋才能實現超混沌chua電路的控制。
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