chaos motion 中文意思是什麼

chaos motion 解釋
不規則運動
  • chaos : n. 1. 〈常 C-〉(天地未出現的)渾沌世界。2. 混亂。3. 〈古語〉無底深淵。
  • motion : n 1 運動 動 移動(opp rest)。2 (天體的)運行;(車、船等的)動搖;(機器的)開動 運轉;【機械工...
  1. Global bifurcation and chaos motion of mises truss

    桁架結構的全局分岔和混沌運動
  2. Compare the system ' s classical chaos motion between the double - potential well in the tiled magnetic field and that of potential well including biquadratic term

    比較了傾斜磁場作用下的雙勢阱和含有4次方的勢阱兩種情況下系統的經典混沌運動特徵。
  3. W. hai, y. duan, l. pan. an analytical study for controlling unstable periodic motion in magneto - elastic chaos [ j ]. phys. lett., 1997, a234 : 198

    海文華,段宜武,朱熙文等.控制離子云混沌運動中的不穩定性[ j ] .物理學報, 1997 , 46 : 2117
  4. Theories, numerical values and experiments indicates that chaos motion exists in all the fields of natural science ( even in sociology ), which means that chaos motions is a motions of matter in nature and exists extensively in many non - linear systems

    來自理論、數值計算和實驗手段所揭示的自然科學(乃至社會科學)各個學科領域的許多系統中存在混沌運動的事實表明:混沌運動也是自然界物質運動的一種形式,而且它也廣泛地存在於相當多的非線性系統中。
  5. Expanding the system ' s hamiltonian to a real symmetric matrix in an appropriate orthogonal basis vector and then diagonalizing it, we get the energy spectrum of the system and calculate the energy level spacing distribution function and the spectral rigidity. then we study the statistical character of the energy spectrum under the changing of magnetic field intension and find that the system ' s motion transfers from regular to chaos gradually

    將系統的哈密頓量在一個適當的正交基矢下展開並對角化,得到系統的能譜,分別計算系統能譜的能級間距分佈函數和譜剛度,研究了該系統量子能譜的統計特徵隨磁感應強度大小的改變而表現出的系統運動由規則到混沌的漸進變化。
  6. Matrices, vector and vector calculus, newtonian mechanics - single particle, oscillations, nonlinear oscillations and chaos, gravitation, some methods in the calculus of variations, hamilton ' s principles lagrangian and hamiltonian dynamics, central - force motion, dynamics of a system of particles, motion in a noninertia reference frame, dynamics of rigid body

    矩陣和向量的計算、單一質點的牛頓力學、線性與非線性的振動運動、重力、微積分上的變分法介紹、哈密頓原理、拉氏及哈氏力學、連心力下的運動、質點系的運動力學、在非慣性座標中的運動、剛體的運動。
  7. Chaos is an inner stochastic motion happening in fixed non - linear dynamics system

    混沌是發生在確定性非線性動力學系統中的一種內在隨機運動。
  8. In addition to the familiar period doubling bifurcation scenario leading to chaos, a quasiperiodic route to chaos is also observed which occurs through an initial hopf bifurcation. the current chaos control methods are compared, the stabilization of unstable periodic orbits of this chaotic system is achieved by continuous feedback control method, the specially designed external oscillator which used as target motion orbit in continuous feedback control method is obtained directly from ihb method

    對現有的混沌控制方法的優缺點進行了比較,利用混沌控制理論中的連續變量反饋控制方法,實現了系統混沌吸引子內部的不穩定周期軌道的穩定化,對齒輪傳動系統進行了有效的混沌控制,並對連續變量反饋方法的結果進行了分析,包括噪聲的影響和方法的改進。
  9. It is constructed that radial impact and rubbing dynamics differential equations of the rotor system having the nonlinear rigidity on the unsteady and non - linear oil film. the bifurcation and chaos behavior of impact and rubbing fault rotor system caused by the parameters of nonlinear rigidity, rotor rotating speed, eccentric mass is analyzed, in the numerical value analysis method. the bifurcation diagrams, maximum lyapunov exponent diagrams, poincar maps, phase plane portraits, trajectories of journal center, time - history curve, amplitude spectra diagrams of the rotor motion are used

    ( 2 )建立了具有非線性剛度的轉子系統在非穩態非線性油膜力作用下的徑向碰摩動力學微分方程,並應用含高階余項的非線性動力方程的線性化數值法研究了此類系統響應的復雜動力學行為,利用轉子響應的分岔圖、最大lyapunov指數曲線、 poincar截面映射、時域波形、相軌線、軸心軌跡、幅值譜等圖形分析了系統響應的周期運動、擬周期運動、倍周期分岔、混沌等運動形式的轉化與演變過程,重點研究了非線性剛度、轉子轉速、偏心質量等系統參數對碰摩故障轉子系統的分岔和混沌行為的影響。
  10. 3. making a deep research on weak sinusoid signal detection using duffing oscillators and combining chaos critical state detection method with general detection methods, this dissertation realizes weak sinusoid signal detection below - 50db snr. furthermore, starting from the analysis of the intermittent chaotic motion occurring in the detecting process, an array of duffing oscillators are used to estimate the frequency of weak sinusoid signals accurately

    ( 3 )全面深入地研究了duffing振子用於微弱正弦信號檢測的機理,並把混沌臨界狀態檢測法和傳統檢測方法相結合,實現- 50db以下超低信噪比的微弱正弦信號檢測;建立了混沌振子陣列,實現低信噪比下正弦信號頻率的估計。
  11. Meanwhile, we analyze the procession of the route from the periodic motion to chaos motion of cable via period - doubling bifurcation. in chapter 5, the chaotic motion of cable is studied by utilizing melnikov method and simulates the chaotic motion digitally

    在第五章中,針對第四章得到的結論,用melnikov方法研究了斜拉索的混沌運動,並對斜拉索的混沌運動進行了數值模擬。
  12. In the present thesis, considering the impurity of the real material, we introduce the double - potential well and investigate that how the bottom fluctuation of the potential well influence the particle ' s chaos motion. my work includes the following points : 1

    本文考慮到實際的材料中的雜質問題,而引入了雙勢阱,考察勢阱底部的起伏對系統混沌運動的影響,主要進行了以下兩個方面的工作: 1
  13. Chaos often exists in nonlinear system ; it has many good properties, such as ergodicity, stochastic and so on. a chaos motion can go nonrepeatedly through every stated in a certain domain. secondly, this paper discusses the progress of the communications with chaos and the capacity ' s analysis of the mud in the cdma

    本文首先介紹了一些比較成熟的混沌理論,混沌運動廣泛存在於非線性系統中,它具有遍歷性、隨機性和對初值敏感等優良性質,且在某個域內不可重復的走向每個狀態,然後是討論混沌通信的研究進展和對cdma多用戶檢測系統容量的分析。
  14. Some problems related to crack stability of concrete dams in the field of dam monitoring are studied in this dissertation using theories and mathematics such as chaos theory, fractal geometry, artificial neural networks, grey system theory, motion stability theory, catastrophe theory, and so on

    本文應用混沌理論、分形理論、人工神經網路、灰色系統理論、運動穩定性理論、突變理論等理論和方法,對大壩安全監測中有關裂縫穩定性的相關問題進行研究。
  15. Firstly, the artificial neural networks of bp and its improved algorithms which are both simple, direct in structure and algorithm, and also full - grown in the research and apply field is employed. the controlling algorithm used for training the network is based on the chaos control scheme developed by ott, grebogi and yorke. according to the linear and nonlinear functions, the networks is trained to generate small disturbance time series signals necessary for suppression nonlinear chaotic motion as chaos controller

    首先採用網路結構及其演算法直觀、簡單,研究和應用較為成熟的bp及其改進演算法的神經網路,以ogy混沌控制策略為基礎,分別用線性和非線性函數訓練網路,產生混沌穩定所需的時間序列小擾動控制信號,並用所設計的方法對二維henon混沌非線性映射進行了有效的控制。
  16. Bifurcations and chaos of homoclinec and subharmonic orbits for pendulum motion

    次諧分岔和混沌
  17. It is discovered in the rlc circuit model that type v intermittency becomes the main route of the transition from periodic motion to chaos. this type of intermittency can happen only in piecewise - smooth dissipative systems

    在帶模擬開關的rlc電路模型中發現v型陣發成為主要的從周期運動向混沌運動過渡的形式,這種陣發類型只能在分段光滑耗散系統中發生。
  18. Considering the actual experiment condition, we use the poincare surface of section, which is the elementary method in the study of classical chaos, to investigate how the different relative energy and tiled angle influence on the particle ' s motion in the potential well. 2

    考慮到實際的實驗數據,分別改變粒子的初始能量和磁場的傾斜角度,採用經典混沌研究的主要工具,即經典相空間的龐加萊截面方法來研究不同能量和傾角對系統中粒子運動的影響。
分享友人
分享到 Line

分享到臉書