| 1. | Generalized inverse matrix and solution of linear equations
广义逆矩阵与线性方程组的解 |
| 2. | Generalized inverse matrix and its some properties
广义逆矩阵及其性质 |
| 3. | A elementary transformation method of calculating generalized inverse matrix a
介绍广义逆矩阵及其计算方法 |
| 4. | Generalized inverse matrix and its application to neural network computation
广义逆矩阵及其在神经网络计算中应用 |
| 5. | A uniform method of calculation on inverse matrix and generalized inverse matrix
关于几种广义逆矩阵及其应用的探讨 |
| 6. | The generalized inverse matrix method has been used to solve the nonlinear equal pressure kutta condition in the harmonic analysis method that is the first time inland
采用广义逆矩阵方法解决了谐调分析方法中的非线性等压库塔条件问题,这在国内尚属首次。 |
| 7. | The relationship between the rank of partitioned matrix and the one of submatrix is given with the partitioned matrix of the generalized inverse matrix , and the range of the rank of three matrices sum is obtained
摘要用分块矩阵的广义逆矩阵给出了分块矩阵的秩与子块秩的关系,及三个矩阵和的秩的范围。 |
| 8. | Starting from the basic equations of static condensation , the algorithm is available to calculate the rotational response in accordance to structural displacement data by solving the generalized inverse matrix
该算法从静力凝聚的基本方程出发,求解广义逆矩阵,由结构的位移测量信息计算结构的转角信息。 |
| 9. | Since 1950s , many mathematicians have been engaged in studying the " generalized inverse of matrices such as the generalized inverse of matrices on rings , the generalized inverse of morphism , the compution on the generalized inverse of matrices , the application of generalized inverse and so on
Penrose利用四个矩阵方程给出矩阵广义逆的更为简洁定义,此后,矩阵广义逆研究得到了迅速的发展。矩阵广义逆的研究包括环上矩阵的广义逆,范畴中态射的广义逆,广义逆矩阵的计算和广义逆矩阵的应用等。 |
| 10. | The formula for mach number has been optimized with least - squres solution , thus the precision of a polynomial of power of 5 is better than that of 9 . 2 . after the solving of angle of attack and angle of sideslip , the theory of general inverse of matrix is used to simplify the nonlinear equations and to calculate the total pressure and the modified dynamic pressure ratio . these two parameters together with the angle of attack and angle of sideslip contain enough information to work out the dynamic pressure and static pressure
其中包括: 1 .应用最小二乘法,对马赫数的泰勒求解公式进行优化,优化后的求解公式采用5次多项式即可在精度上优于原有的9次多项式,可以提高运算速度; 2 .提出应用广义逆矩阵简化非线性方程组:在已经求解出迎角与侧滑角的前提下,直接从原始的压力向量中提取出总压,并且提出了动压修正比的概念。 |
