時間域運算元 的英文怎麼說
中文拼音 [shíjiānyùyùnsuànyuán]
時間域運算元
英文
time-domain operator- 時 : shí]Ⅰ名1 (比較長的一段時間)time; times; days:當時at that time; in those days; 古時 ancient tim...
- 間 : 間Ⅰ名詞1 (中間) between; among 2 (一定的空間或時間里) with a definite time or space 3 (一間...
- 域 : 名詞(在一定疆界內的地方; 疆域) land within certain boundaries; territory; region
- 運 : Ⅰ動詞1 (物體位置不斷變化) move; revolve 2 (搬運; 運輸) carry; transport 3 (運用) use; wield...
- 算 : Ⅰ動詞1 (計算數目) calculate; reckon; compute; figure 2 (計算進去) include; count 3 (謀劃;計...
- 時間 : time; hour; 北京時間十九點整19 hours beijing time; 上課時間school hours; 時間與空間 time and spac...
- 運算 : [數學] operation; arithmetic; operating
-
Due to the importance of the accuracy of the time - domain impedance matrix elements, the techniques by which treating of the singular integrals and near singular integrals arose from the tdie - mom solving process are analyzed in detail, and these techniques are utilized to solve the tdie. in the end, using triangle patches discretizing arbitrarily 3 - d dielectric objects and metal - nonmetal composite objects surface and utilizing spatial rwg and temporal triangular bases, the tdie are solved by mot algorithm
最後,分別對三維介質目標、金屬非金屬組合目標散射體表面用三角貼片離散,並在空間上採用rwg基函數,在時間上採用三角型時間基函數、利用阻抗元素的精確演算法計算出阻抗矩陣,再運用mot法分別求解了介質體目標,金屬非金屬組合目標的時域積分方程,並分析了金屬非金屬組合目標分界面上的等效電流與等效磁流的特性。The main focus concentrates on the two most time consuming arithmetic in finite field calculation, field inversion and field multiplication. by analyzing in detail the performance of algorithms in composition fields, we have drawn a conclusion that the time consuming of square is less than that of multiplication with itself
在對復合域中的演算法進行詳細分析后發現,多項式平方運算比元素自乘有更好的時間特性,因此盡可能地用平方運算替代自乘運算是在復合域中進行演算法優化的主要手段。By employing the theory of operator representation, the reflection / transmission operator is decomposed into the form of double domains in the scheme, so it is adaptable to laterally heterogeneous media and fluctuating reflectors, can mimic ava of reflections when the incident angle is less than 45
文中利用運算元可分表示理論將反射透射運算元分解成適合於雙域(空間域和波數域)運算的表達形式,使得本文得到的地震波數值模擬演算法可適應於一定程度橫向非均勻介質和界面起伏情況,在入射角小於45時能夠準確模擬振幅隨入射角( ava )的關系。The difference between these two algorithms is that the former uses sub - domain as the basic unit of task to be allocated and the latter uses the node - super - row as the basic unit of task. ( 6 ) the original problem is transformed into transformed domain by using laplace transform method. by the parallelization of the bem in the transformed domain, the parallelization of the elasto - dynamic be analysis is implemented by introducing the time related fimdamental solution, the time dependency is released from the formation of time - domain be equations
( 6 )通過拉氏積分變換法將彈性動力問題轉換至變換域,通過變換域上邊界元的分佈并行處理實現了彈性動力邊界元分析的并行化;引入與時間有關的基本解,解除了時域邊界元系統方程組形成階段的時間順序依賴性,通過矩陣向量運算的分佈并行處理實現方程組時間步進求解方法的并行化,這種方法是一種部分時間并行演算法。So, we put forward an optimized exponential algorithm in which the multiplication with itself was substituted mostly by square. through expanding of composition fields, the time consuming of optimal algorithm is, where n is the number of bits of exponential
通過對演算法的分析我們可以得出結論,隨著復合域的不斷增大,域上指數運算所需的時間可近似表示為,式中n為指數以二進製表示時的比特串長度,為域元素進行多項式相乘所需的時間。Rising computer power has recently enabled wireless devices operating in these upper bands to offer gigabits per second of instantaneous bandwidth within very small areas, or “ picocells, ” of coverage
電腦運算效能提高,也讓無線裝置可在這些較高的頻帶運作,在非常小的區域(即所謂的微微細胞)內,提供每秒數十億位元的短時間頻寬。Taking the results as boundary constraint and the velocity field of horizontal movement after transforming reference frame as the load of fem node, the velocity field of horizontal movement in the region is simulated, the principal strain rate field and maximal shear strain rate field are calculated, the variety characteristics of the two rate fields and relation between the variety characteristics and strong earthquake preparation are analyzed
將反演結果作為邊界約束並將變換參考框架后的水平速度場作為有限元節點載荷,模擬區域內部水平運動場並計算其主應變率場、最大剪應變率場,以分析這兩個時段中這兩種場的變化特徵及其與地震孕育之間的關系。At first we get an equivalence characteristic of the numerical range : w ( a ) = jpn ? pn w ( pna en ). from the definition of the quadratic numerical range, we can see that the quadratic numerical range depend on the space decomposition. from contrast, we can see that the quadratic numerical range gives a better information about the localization of the spectrum than the numerical range, perhaps just because of this, the quadratic numerical range of an operator need not to be convex, and even that the quadratic numerical range of an operator need not connected, then we give a condition under which the quadratic numerical range of an operator is not connected
為了對數值域的本質有更進一步地了解,首先根據toeplitz - hausdorff定理的證明方法,得到了數值域的一個等價刻畫: w ( a ) : u _ ( p _ n p _ n ) w ( p _ na | e _ n ) ,接著引入了二次數值域的定義,從二次數值域的定義我們可以看出,一般說來,在不同的空間分解下,一個運算元的二次數值域也會截然不同,但是當所給的兩種空間分解有某種關系時,它在這兩種空間分解下的二次數值域是相等的。In capter 2, it is proved that the system possesses a global attractor and a two - side estimate for the fractal dimension of it is presented. in capter 3, several different approximate intertial manifolds of the system are constructed by applying linear galerkin method, method of projecting operator and operator eigenvalue and successive iterative method, and it is proved that arbitary trajectory of the system enters into a small neighbourhood of the global attractor after large time. capter 4 studies the asymptotic attractor of the system by constructing a solution sequence which approaches to the global attractor of the equation in long time, and the dimentional estimate of the asymptotic attractor is given
第二章證明了該系統的整體吸引子的存在性,給出了其分形維數的上下界;第三章利用線性galerkin方法、運算元投射和運算元特徵值方法及逐次迭代方法構造了幾類近似慣性流形,證明了該方程的任意解軌道在長時間后進入整體吸引子的任意小鄰域;第四章構造了一個有限維解序列即該系統的漸近吸引子,證明了它在長時間后無限趨于方程的整體吸引子,並給出了漸近吸引子的維數估計The feed back procedure neural network structure is researched. in the course of research of pnn algorithm, applying the concept of vertical base function, integral operation is convert to additive operation and complicated aggregation in time field is avoided
在過程神經元網路的演算法研究中,應用函數空間正交基的概念,可將積分運算元變換為求和運算元,從而有效避免了繁雜的時域聚合運算。In particular, its application to partial differential equation, which is concerned by more and more mathematicians, is a very active branch in mathematics research at present. for example, the calderon - zygmund operators of the third era and t ( 1 ), t ( b ) theorem offer the theoretic base of potential method to solve a class of elliptic boundary problems in non smooth domains [ 46 ] ; on the other hand, the lp - lq estimates and space - time estimates of the linear evolution equations offer the nonlinear evolution equations new work spaces, which is established by the estimates of oscillatory integral and potential
例如第三代calderon - zygmund運算元及t ( 1 ) , t ( b )定理,對于非光滑區域上的一類橢圓邊值問題,提供了用位勢求解的理論基礎[ 46 ] ;又如以振蕩積分估計及位勢估計為基礎,建立線性發展方程的l ~ p - l ~ q估計以及相應的時空估計,為研究發展型方程提供了新的工作空間,這方面的工作參見t分享友人