離散方差 的英文怎麼說

中文拼音 [sǎnfāngchā]
離散方差 英文
dispersion variance
  • : Ⅰ動詞1 (離開) leave; part from; be away from; separate 2 (背離) go against 3 (缺少) dispens...
  • : 散動詞1. (由聚集而分離) break up; disperse 2. (散布) distribute; disseminate; give out 3. (排除) dispel; let out
  • : Ⅰ名詞1 (方形; 方體) square 2 [數學] (乘方) involution; power 3 (方向) direction 4 (方面) ...
  • : 差Ⅰ名詞1 (不相同; 不相合) difference; dissimilarity 2 (差錯) mistake 3 [數學] (差數) differ...
  • 離散 : dispersed; scattered about; separated from one another; spread; debunching; straggling; fringing;...
  • 方差 : dispersion
  1. Method of deal with data error by subsection curve fitting and discrete degree

    分段曲線擬合與度加權的數據誤處理
  2. On the other hand, the moment, the second moment and variance of the present value random variables about some life annuities and annuities with random interest rate are gotten

    另一面討論了隨機利率下的一些年金、連續年金和連續生存年金現值隨機變量的一階和二階原點矩及其
  3. Previous researchers have always determined the sp atial distribution patterns ( sdp ) of castanopsis kawakamii with a sample - dis tance method. however, the distribution patterns may be affected by the quadrat si ze and, in the course of analysis, the density differences among the cluster plots are not considered ; therefore, differences of cluster plot size and the dispersi on degree among individuals of cluster plots can not be known. authers of this pa per have determined the spatial distribution patterns of castanopsis kawakamii population in different habitats by means of non - quadrat distance method and a nalysed the pattern intensity and grain of the sdp. the pattern intensity is defi ned with the relative density differences and the pattern grain can embody the d ispersion degree of the individuals in the plots, and the dispersion degree among the plots. the determined results are as follows. the intensities of the species range in order from strong to week : litsea mollifolia p. kawakamii i. purpure a r. cochinchinensis c. kawakamii c. carlessii d. oldphamii s. superba. the gra ins of the species queue in order from coarse to close : s. superba = litsea mollif olia r. cohinchinensis c. kawakamii = i. purpurea c. carlessii p. racemosam d. oldp hamii. these determined results tally basiclly with the results authers of this paper have got in determining the same plots by means of aggregate index access ing method. in view of this, it is held that the sdp of c. kawakamii is closely related to the habitats and biological features

    前人都是採用樣法對格氏栲種群數量的空間格局進行測定,而格局分佈有可能受樣大小的影響,且分析過程中沒有涉及聚塊間密度的問題,因而無法掌握種群的聚塊大小別及聚塊內個體間的程度.本研究採用無樣法,測定不同生境的格氏栲種群空間格局,分析格氏栲種群格局的強度和紋理.強度以聚塊和間隙的密度來定義,紋理則是體現聚塊內個體間的程度與諸聚塊間的分程度.測定結果表明,格氏栲種群格局強度從高到低排列次序為:木姜子蚊母樹冬青茜草樹格氏栲米櫧虎皮楠木荷;格局紋理從粗到細的順序是:木荷=木姜子茜草樹格氏栲=冬青米櫧蚊母樹虎皮楠.這一測定結果與作者採用聚集度指標測定相同樣地格氏栲種群空間格局的結果基本相符.因此,格氏栲空間格局類型及分佈與格氏栲生物學特性及生境的關系密切
  4. In this paper, the crank - nicolson type finite difference method is applied to the benjamin - bona - mahony equation. we obtain the existence and uniqueness of the numerical solutions

    在這篇文章中,使用crank - nicolson有限法來benjamin - bona - mahony程,得到其數值解的存在性和唯一性。
  5. Comparing numerical character of above two models, it shows that the variance of atmosphere motion must be modified so the time step used in numeric simulation has no effect on numerical character of chaff clouds

    對數值模擬模型的分析表明必須對大氣的運動進行時間化補償,進行化補償后箔條雲團的數字特徵不受模擬時時間步長的影響。
  6. In the paper, with system energy balance method and heat conductive equations , on tne basis of short time heat transfer modeling established the long time modeling, considering heat interference in thermal well group. this paper used the finit element method for element division and computer analysis, and provided the operation temperature figure. acquired computation values agreed well with experimental results, the most difference between them was 5. 13 %

    本文採用系統能量平衡結合熱傳導程,在淺埋套管式換熱器短期傳熱模型基礎上建立了長期傳熱模型,並考慮了管群熱干擾對模型的影響。並運用有限單元法軟體編程進行和計算機分析,得出模擬溫度場,其模擬值與實測的均值基本相符,兩者最大誤小於5 . 13 % ,表明該模型具有一定的合理性和實用意義。
  7. Compared with octree data structure, the omni - tree data structure could reduce the meshes " total numbers and get better mesh quality. this paper uses cell - centered finite volume spatial discretization and four - stage runge - kutta time - stepping scheme with some convergence acceleration techniques such as local time stepping and enthalpy damping

    在流場計算中,本文採用格心格式的有限體積法用二階中心分對歐拉程作空間,用四步龍格庫塔法作顯式時間推進。
  8. In this paper, the upwind scheme and the central scheme are presented for solving 3 - d n - s equations using the cell - center finite volume spatial discretization and four - stage runge - kutta time stepping scheme, with standard convergence acceleration techniques such as local time stepping and implicit residual smoothing

    在n - s程的數值計算上,採用了中心分格式和迎風格式,用格心格式的有限體積法進行了空間,用四步龍格?庫塔法作顯式時間推進,並採用了當地時間步長和隱式殘光順等加速收斂措施。
  9. A normal transform is introduced, and there are enough much grids in the region between the critical layer and the wall, where the variation of the disturbance is the quickest. the finite - difference of governing equations with fourth - order accuracy in the normal direction is utilized in full regions including points close the wall, and is very important for accurately discreting equations. the combination of global and local methods is implemented, and a new iterative formula is derived

    對于曲線坐標系下的拋物化穩定性程,文中發展了求解的高效數值法:引進法向變換,使得在臨界層與壁面之間的擾動量變化最快的區域有更多的法向網格點;導出包含邊界鄰域在內的完全四階精度的法向有限分格式,這對程精確至關重要;採用全局法和局部法相結合的法及其新的迭代公式,大大加速收斂並得到更精確的特徵值。
  10. Optimal error estimation on semi - discrete solution of parabolic equation

    拋物型程半解的最優誤估計
  11. In chapter two, we consider full disceret scheme of mixed finite element methods for the following initial - value problems of linear integro - differential equations of parabolic in this chapter, we give the error analysis of this full discrete scheme and get optimal error estimates for the discrete solutions of u and p

    第二章討論下述線性拋物型積分微分程初邊值問題混合有限元法的后格式。給出了該全格式的誤分析,得到了解逼近未知函數u以及伴隨速度p的關于空間和時間的最優階誤估計。
  12. After analysising three existed methods for phase difference correction on discrete spectrum, it is recommended to correct the spectrum containing small noise in engineer practice by the first phase difference correcting method ( performing fft analysis on two continuous original sequence ) with harming window

    綜合分析現有三種頻譜相位校正法,推薦在小噪聲工程實際中加hanning窗的第一種相位法(采連續兩段信號作相同點數fft的相位校正法)進行校正。
  13. Study shows that the basic principles of three existed methods for phase difference correction on discrete spectrum are identical, by which the twice fft analysis through time - domain shifting time series or changing window ' s length is performed, and the spectrum by making use of the phase difference of two corresponding peak lines are finally corrected

    在研究時域平移的頻譜相位校正法和改變窗長頻譜相位校正法的基礎上,發現這幾種頻譜相位校正法的基本原理是一致的,就是通過時移和加不同的對稱窗進行兩次fft分析,並利用頻譜對應峰值譜線的相位以求得頻率和相位校正量。
  14. When the model is discretized we get a nonlinear equations set

    模型按照其背景意義后,得到一個非線性的程組。
  15. Based on the output - voltage error function, a novel time discrete modulation technique is proposed for matrix converters ( mcs ) and time - discrete difference equations of a mc circuit are derived

    摘要針對矩陣變換器調制式的特點,提出了基於輸出電壓誤函數分析的矩陣變換器調制技術,推導了基於時間分原理的電路程。
  16. The control equation consist of completely coupled deformation equation, seepage equation, conduction and convection equation of heat, which describe the reservoir non - liner performance. 2, present the detailed strategy and methods to solve this mathematics model, the basic strategy as follows : regard the deformation equation ? seepage equation conduction and convection equation of heat as separate system, and solve the equation by coupling and iterative method ; disperse the control equation in the geometry field by the finite element method ( galerkin ), and in the time field by the finite difference method : programme the computer program on this task ; when the solving, take the combinative measures of the thick and thin mesh ; successfully carry out the numerical simulation in vast 3d heat extraction system of hdr

    2 、提出了高溫巖體地熱開發的固、流、熱多場耦合數學模型的數值解法,其基本的求解策略是:將固體變形,流體滲流與溫度場程看成獨立的子系統,耦合迭代求解;利用有限元( galerkin )法將控制程在幾何域上,並用分法得到時間域上的程,並在此基礎上,編制了相應的計算機源程序;有限元求解中,為減小邊界效應的影響,在計算中採取粗細網格結合的法,順利地實現了高溫巖體地熱開發三維巨系統的數值模擬。
  17. My research concentrates on discretization of model optimal control problem, development of the posteriori error estimator and designment of efficient solver for discrete optimal control problem

    我的研究在於為模型最優控制問題提供案,進行誤估計以及設計快速求解演算法。
  18. For solving the corresponding discretization equation, there are few re - sults on the construction of efficient solvers. most existing results only presented the related error estimate for a concrete problem discretized by covolume methods. in this paper, hierarchical basis method, domain decomposition method and precondtioned gmres method are constructed

    並且大部分已有研究結果均集中於給出對某一具體問題用有限體積法后的誤估計,而對于如何高效求解其程,這一無論從理論上講,還是從實際應用角度出發都具有重要意義和巨大實用價值的問題,目前這面的研究結果還很少。
  19. Normally measured data are flawed by noise and should be processed before surface reconstruction. fairing method is studied and an error constrained automatic faring algorithm for b - spline curve is presented

    為了將重構的模型用於rp製造,對三角bezier曲面片的法進行了研究,首次提出了三角bezier曲面片的誤控制定理。
  20. Based on the simplified principle, the modal shapes of selected structural modes are converted into modal strains. to minimize the calculation error, curve - fitting technique is used in the process. the modal strains are summed together to determine the global distribution of the structure for selected vibration modes so that the position of piezoelectric elements could be optimally determined according to the simplified optimization principle

    通過二階中心分運算將模態振型轉化為模態應變,採用應變曲線擬合法降低,進而將各階待控模態應變進行疊加,獲取系統整體特徵應變分佈情況;最後根據壓電元件位置優化的簡化目標函數,將壓電片的最優位置確定為柔性板疊加模態應變的極值區域。
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