李雅普諾夫法 的英文怎麼說
中文拼音 [lǐyǎpǔnuòfūfǎ]
李雅普諾夫法
英文
liapunov's method-
( 3 ) a modified chua ' s circuit is proposed and a circuit implementation is also designed. dynamics of this modified chua ' s circuit are numerically studied and its lyapunov exponents are also calculated. ( 4 ) a resistance - coupling method for designing new chaos generators by taking use of existing chaos generators is suggested, several new chaos generators realized by this way are studied and their dynamic are compared to those of original chaos generators, their lyapunov exponents are also calculated
( 4 )提出了一種構造新的混沌或者超混沌模型的電阻性混沌模型耦合方法,並且給出了用此方法構造的幾種新的混沌吸引子,對所構造的新的混沌os吸5吁進行了數值研究,贈了其李雅普諾夫指數,將耦合形成的新的混飩吸引子與耦合之前的混飩吸引子進行了對比頒。By combining the parameter smooth projection algorithm and the integral - type lyapunov design technology with the sliding mode design technology with boundary layer, the performances for the system to avoid the parameter drift phenomena, the chattering phenomena, and the controller singularity problem were improved
通過將參數光滑投影演算法,帶飽和層的滑模面設計技術以及積分型李雅普諾夫設計技術集成起來,使得演算法提高了系統在抑制參數漂移、抖振現象、控制器奇異等方面的能力。A sufficient condition of quadratic stability for the impulsive and switched systems is given with a switching law by way of convex combination and single lyapunov function
在有限個備選狀態反饋控制器的條件下,利用凸組合技術和李雅普諾夫函數等方法,給出脈沖切換線性廣義系統二次穩定的充分條件及切換律的設計。After introduction to the principle, the realizing methods and applications of chaos anti - control, the state of art of chaos anti - control methods both at home and abroad are aimed and summarized : including chaos anti - control based on lyapunov exponents allocation, chaos anti - control based on added linear or nonlinear state feedback, chaos anti - control based on the alteration of the dynamics of the available chaos attractors, chaos anti - control based on the time delayed system parameter perturbation or time delayed state feedback, chaos anti - control based on the precise tracking of the reference chaos system
摘要在介紹混沌化控制的原理、方法、應用的基礎上,對如下混沌化控制方法的國內外現狀進行綜述:基於李雅普諾夫指數配置的混沌化控制、對受控系統施加線性或非線性狀態反饋輸入的混沌化控制、通過對已有混沌吸引子進行變異來實現混沌化控制、通過施加時滯參數攝動或時滯狀態反饋來實現混沌化控制、通過受控系統狀態對已知混沌參考系統狀態的精確跟蹤來實現混沌化控制。The lyapunov function is used to analyze the convergence of the general learning rule, and it is proved in theory that the general learning rule has the inherent factor which adjusts the coefficient values to gain the minimum error
通過理論推導,用李雅普諾夫函數分析和驗證通用參數學習規則的學習收斂性,揭示參數學習演算法朝最小誤差方向調整參數的內在因素。Second by using liapunov direct method, two different sufficient global exponential stability conditions are obtained on condition that activation functions are lipschitz continuous
第二種是採用李雅普諾夫直接方法,在激勵函數的lipschitz連續假設下,得到了兩個全局指數穩定的充分性判據。Using variational lyapunov method and comparison principle, some results of ultimate stability of perturbed differential systems through the corresponding ultimate stability properties of the unperturbed differential systems and the comparative system are gotten
摘要變分李雅普諾夫函數方法和比較原則相結合,利用無攝動脈沖微分系統和比較系統的最終穩定性性質得到了脈沖攝動微分系統最終穩定的若干結果。This paper uses systematic project for energy system according to jiangsu and ten province energy conditions in west. it applies nonlinear chaotic dynamics theory in energy system and builds the chaotic dynamics model of energy system : chaotic time series model. the largest lyapunov index energy time series has been calculated according to decimal quantity method
本文根據江蘇及西部十省能源狀況,利用系統工程的方法對能源系統進行研究,將非線性混沌動力學理論應用於能源系統中,建立能源系統的混沌動力學模型:混沌時間序列模型,採用小數據量方法來計算了能源時間序列的最大李雅普諾夫指數。According to a real ac vf asynchronous dynomometer system, first step, the paper deducts the mathematic model of the system, and analyzes the system stability on the basis of the ? irst method ? of lyapunov stability, then draws the eigenvalues of the system under the situation of the variation of different parameters, and results in finding the changing regularity of the system stability caused by varitation of variant system parameter ; secondly, sets up a system simulation model in terms of a real power feedback ac vf asynchronous dynomometer system, and emulates different running states of the system, not only analyzes methods of adjusting parameters to improve the working performance in the field of weak flux of the system, but also proves the effectiveness of the methods via simulation ; at last, compares the simulation results of the model with the experiment results of the real system, and show the nearly correctness of simulation system, and also confirms the practical usage of the simulation system as an effectively assistant tool in the process of developing and design a real dynomometer system
首先根據實際系統工作原理推導出系統的數學模型,在系統數學模型的基礎上依據李雅普諾夫穩定性判別第一法進行了系統穩定性分析,繪制了系統不同參數變化時的系統特徵值變化圖,從而得到系統部分參數變化對系統穩定性的影響規律,為實際系統的參數設計提供了參考;然後又以系統數學模型為基礎,依據實際的電封閉交流變頻異步測功機系統建立系統模擬模型,模擬不同工況下系統運行情況,分析了改善弱磁區系統性能的某些系統參數調節方法,通過模擬證明了此類方法的有效性;最後將系統模型與實際系統的實驗結果進行了比較,驗證了模擬系統模型的基本正確性,也肯定了這一模擬系統在實際測功機系統設計中作為輔助工具的實用性。These include two keys problem in phase space reconstruction theory, that is embedding dimension and optimal delay time, and numeric recognition of chaos, that is lyapunov exponent, as well as numeric recognition of fractal, that is correlative dimension of chaotic attractors
其中重點講述了非線性動力學的數值研究實驗方法:相空間重構的兩個關鍵問題,即嵌入維數和最佳延遲時間;混沌的數值識別,即李雅普諾夫指數;分形的數值識別,即吸引子的關聯維數。And then two deep - stall recovery control laws are designed : pitch oscillation control law based on the lyapunov method and slide modeling anti - control law based on the slide modeling anti - control technique
然後分別用李雅普諾夫方法和滑模反控制方法設計了兩種深失速改出控制律,即俯仰振蕩控制律與滑模反控制律。In this paper, the auv is the object of the research. in order to overcome the negative effects of the non - linear part of kinematic model, sea current and wave during motion control, a new type of neural network : fuzzy cerebellar model arithmetic controller ( fcmac ), together with an on - line learning scheme based on the lyapunov stability theory, has been adopted in designing the new motion control system. the simulation results have been compared with those generated by a classic pid controller
本文以auv為對象,針對其運動控制中模型非線性部分對控制性能影響較大及有海流、海浪等外界干擾等特點,採用一種新型神經網路:模糊小腦模型關節控制器( fuzzycerebellarmodelarithmeticcontroller )並結合基於李雅普諾夫原理而推導出的學習演算法設計auv的運動控制系統,並與傳統pid控制器進行了模擬比較。Furthermore, according to the method of liapunov functions in the stability theory, both the globally asymptotic stability and the attractive regions of the nonnegative equilibrium in the model are discussed
同時,對系統解的吸引域以及平衡態的全局穩定性,採用李雅普諾夫函數法進行完整的討論。The sufficient conditions ensuring existence and globally exponential stability of periodic solutions for neural networks with delays are obtained by using coincide degree, m - matrix theory and liapunov function method
摘要運用重合度理論、 m -矩陣理論及李雅普諾夫方法,獲得了帶時滯神經網路周期解存在性和全局指數穩定性的充分條件。In the theory of stability for large - scale systems there are mainly two kinds of analysis approaches
分析大系統穩定性的方法主要是李雅普諾夫函數法。The applying of. method in linear system
李雅普諾夫方法在線性系統中的應用This method first builds up an optimal model which have a good performance, then according to the error and the derivation of the error between the output of the optimal model and the output of ac motor drive, design model controller by lyapunov theory
該方法首先建立性能指標最優化模型,然後利用李雅普諾夫穩定性理論設計出模式控制器。根據最優模型輸出與實際電動機輸出的偏差及偏差導數,在模式控制器的作用下,使實際電動機的輸出跟隨最優模型的輸出,直至偏差為零。System stability is realized. the control strategy is extended hybrid chaotic system and a designing controller method of hybrid chaotic system is deduced. from lyapunov stability theory of nonlinear system, got convergent region of system
在此基礎上,將該控制策略推廣到混雜混飩控制系統中,並進一步推導了混雜混燉系統控制器的設計方法,根據非線性系統李雅普諾夫穩定性理論,得出了系統的收斂區域。In the fifth chapter, by using the direct lyapunov method and adding some conditions on the controlling function of the derivate of lyapunov function, we get some sufficient conditions on stability and unstability of the impulsive differential system
在第五章中,運用李雅普諾夫直接方法並對李雅普諾夫函數導數的控制函數加以限制,得到了脈沖微分系統穩定性及不穩定性的若干充分條件In the latter part of this paper, by using lyapunov direct method and adding some conditions on the controlling function of the derivate of lyapunov function, we get some sufficient conditions of stability and unstability for impulsive differential system
後半部分主要運用了李雅普諾夫直接方法,並對李雅普諾夫函數導數的控制函數加以限制,得到了脈沖微分系統穩定性及不穩定性的若干充分條件分享友人