solving linear equations 中文意思是什麼
solving linear equations
解釋
線性方程組-
In chapter two, by adopting a semiclassical model, we get an analytic expression of potential distribution in a one - dimensional mesoscopic tunnel junction array by solving a set of linear equations
第二章採用半經典模型,通過求解一個線性方程組得到了一維介觀鏈中電勢分佈的解析表達式。 -
Established the system of coordinates of roll testing, getting the parameters of equation of tooth face by solving the non - linear equations set ; according to the differential geometry and meshing principle, deduce the curvature parameters of tooth face and tooth profile, and get the parameters of instantaneous contact ellipse. emulate the contact trace and contact area of the working tooth face, and drawing the instantaneous drive ratio error curve
建立了克林貝格擺線齒錐齒輪嚙合分析的對滾模型,通過對非線性方程組的迭代求解,得到齒面方程的各個參數;由微分幾何和切齒嚙合原理推導了齒面上齒廓和齒線方向的曲率參數,得到了瞬時接觸橢圓的參數。根據設計參數和機床調整參數繪制了工作齒面的接觸軌跡和接觸區圖形,並求得了瞬時傳動比的誤差曲線。 -
According to the computation process of the fem and assumption, associating of the fem mesh that have separated and the grouting stress diffusion equation, the integral stiffness matrix and the load matrix can be formatted, then the displacement of the nodal point can be got after solving the simultaneous linear equations. and then the grouting parameter can be computed and analyzed
然後,依據有限元法的計算步驟和所作的假設,結合已經離散化了的網格、灌漿壓力擴散衰減公式,形成整體剛度矩陣、荷載矩陣,經求解后得到結點的位移,並依此計算分析灌漿參數。 -
A new method for solving linear equations
齊次線性方程組的一種簡捷的公式化解法 -
New method in solving linear system of equations
求解線性方程組的一種新方法 -
In the elimination method of solving linear equations, pivot in an elimination step is a element with maximum - mod
在解線性方程組的消元法中,主元素指在某步消元時模最大的那個元素。 -
In finite element analysis, the storage needed by a total stiffness matrix for solving a large - scale system of linear equations is related to the sequence determined by numbering of mesh nodes
摘要在有限元分析中,求解高階線性代數方程組時整體剛度矩陣所需存儲與由網格結點編號決定的順序有關。 -
Spline curves defined in the space constructed by polynomial and hyperbolic functions are studied in this paper. the main research contents and achievements are as follow : firstly, we generate the cardinal extended complete chebychevian ( ect ) - systems on the space constructed by polynomial and hyperbolic functions, then introduce the algebraic - hyperbolic b - spline space and identify the dimension law and zero properties. the existence of a basis of splines with minimal compact supports is demonstrated, and functions named non - uniform algebraic - hyperbolic b - splines are obtained by solving certain linear equations with a block matrix
本文主要研究定義在多項式和雙曲函數構成的空間上的樣條曲線,其內容和完成結果如下:一、生成由多項式和雙曲函數構成的空間上的一組典範式ect ( extendedcompletechebychevian )組及其對偶, ,證明非均勻代數雙曲b樣條空間的維數定理和零點定理,直接通過解塊矩陣線性方程組得到具有最小緊支撐的非均勻代數雙曲b樣條函數,進而構造非均勻代數雙曲b樣條曲線,還具體給出低階的表示 -
Presents a method for sfs based on model of polyhedron. we carry out the algorithm by solving a overdetermined linear equations which is constructed through the distributing of the vector field. the algorithm can reconstruct 3d surface from photometric stereo image given the direction of illumination
針對目前「從明暗恢復物體形狀方法」存在的問題,提出了以多面體模型為基礎的快速演算法,根據向量場的分佈建立關於物體表面深度信息的超定線性方程組,在最小二乘意義下求得物體表面的深度值。 -
Basic linear algebra in matlab ?. vector and matrix addition and multiplication. solving sets of linear equations using matrices
使用matlab軟體中的基礎線性代數、向量和陣列的加法與乘法,以及使用陣列解決多組線性方程式。 -
Solving linear equations by elementary column transformations
用列初等變換求解線性方程組 -
General pkm has no analytic positive solutions, which mirrors in the analysis of kinematic and dynamic. jacobian matrix can not be gained ; when solving the problem with the digital algorithm of gauss - elimination, the coefficient matrix of linear equations group is high degree illness
一般並聯機構沒有解析正解,反映在運動和動力學分析過程中為無法求得雅可比矩陣;當採用高斯消去法的數值解法解雅可比矩陣的方程組或求逆時會發現系數矩陣是高度病態的。 -
The image is split into several blocks, and every block is processed individually. so we can get ride of solving large linear equations and calculating huge matrix, and the time and space complexity are lowered greatly
該方法按照圖像極值點的分佈將圖像劃分成若干塊,分塊處理,避免了求解大型線性方程組以及大矩陣產生,較好地降低了時間復雜度和空間復雜度。 -
So far, there is no effective method for the computation of focus quantities and saddle quantities. compared with the work of other authors, complex nonlinear integrating operation and solving multivariate linear equations are avoided in computation, which are necessary in more usual approaches. the calculation and simplification of focus quantities can be readily done with these formulas and computer symbol operation systems
焦點量與鞍點量的計算至今尚無有效的方法,對比以往其他作者的工作,在計算方法上,我們避免了通常計算焦點量需要的非線性積分運算和求解多元方程組,使得焦點量極易在計算機上應用計算機符號運算系統進行快速計算和化簡。 -
The response and excitation signals are first decomposedusing the daubechies wavelet scaling function. then the differential vibrationequations of the time - varying system are transformed into simple linear equationsbased on the orthogonality of the scaling functions. the physical parameters can beidentified directly by solving the linear equations
運用daubechies小波對線性時變系統的激勵和該激勵作用下的響應做變換,將變換后的響應和激勵代入微分方程,利用daubechies小波尺度函數的正交性,將微分方程轉換成簡單的代數方程組,求解方程組,識別系統的時變參數。 -
By using rac ( radial alignment constraint ) of imaging process to decompose camera parameters and organizing the solving sequence of the parameters rationally, all parameters can be obtained through solving linear equations that avoid non - linear optimization
巧妙地利用成像過程中的徑向約束( rac )分解攝像機參數,使得求解線性方程組即可得到全部的攝像機參數,避免非線性優化搜索。 -
Solving linear equations arise in a surprising number in the computing problems of engineering, but sometimes they are unsolvable. in this paper fast algorithms are presented which compute the minimal norm least square solutions for linear equations with special rectangular matrices coefficients, such as vandermonde matrices, toeplitz matrices, loewner matrices etc. and then, this paper presents an algorithm of computing the left inverse or right inverse for these special rectangle matrices
工程中的計算問題大部分都可轉化成求解線性方程組的問題,而這些線性方程組有的時候是不相容的,本文研究以一些特殊的長方矩陣為系數陣的不相容方程組? ? vandermonde方程組, toeplitz方程組, loewner方程組等的極小范數最小二乘解的快速演算法,以及求這些特殊矩陣的左逆及右逆的快速演算法。 -
Improving gaussian elimination solving the system of linear equations
解非線性方程組的三階斂速迭代法 -
In the first part, by using the method of characteristic curves for solving linear partial differential equations, all invariant algebraic surfaces for three nonlinear systems are obtained
第一部分,利用求解線性偏微分方程的特徵曲線法,得到了三個系統的所有不變代數曲面。 -
In section 1, the introduction and statement of the main results are stated ; in section 2, the main tool of this part using is narrated, that is, the method of characteristic curves for solving linear partial differential equations ; in section 3, rigorous proof is given
本部分由三節組成,第一節是引言和獲得的主要結果;第二節介紹了本部分所使用的主要工具,即,解線性偏微分方程的特徵曲線法;第三節證明了這些主要結果。
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