| 1. | A recurrence method of estimating multivariable integral
多重积分数值计算的一种递归方法 |
| 2. | The application of orthogonal transformation in multiple integrals
正交变换在多重积分中的应用问题 |
| 3. | Two applications of mutiple integral
多重积分两则应用 |
| 4. | Comparison of convergences on regular integral two kinds of improper integral and infinite series
求无穷级数和以及多重积分极限的概率方法 |
| 5. | The sampling is attained by making use of percentiles of distribution function and pseudo - random order , also is applicable to multi - dimensional interval integrals and sampling random variables
该方法是由抽样分布的分位点和伪随机序复合构成的,适用于固定区域上多重积分的计算及随机变量的抽样。 |
| 6. | The essay provides a probability solution to a kind of infinite progression , and intends to popularize it that this text will introduce in documents [ 1 ] , providing [ 1 ] the answer of hitting the leftover problem
摘要文献[ 1 ]中给出了一类求无穷级数的和的概率解法,文章介绍了一种推广,并给出[ 1 ]中遗留的一类求多重积分极限问题的解答。 |
| 7. | Ditlevsen theories boundary ; at the same time it simplifies the reliability calculation about the complicated mechanical system , solve the academic difficulties about multi - calculus compute and related coefficient calculation
Ditlevsen理论界限之内;简化了实际复杂机械系统可靠性的可靠度计算,解冰了多重积分和相x性计算1理论难题。 |
| 8. | So the b - spline smoothed rejection sampling method is indirectly proved to be superior to the standard rejection sampling method . chapter 4 is about the monte carlo integration . we get a theoretical error of the fine antithetic variables monte carlo ( famc ) method for multidimensional integration
第4章是关于蒙特卡罗积分的,得出了用于多重积分的精细对偶变数蒙特卡罗( fineantitheticvariablesmontecarlo ,简称famc )方法的误差估计式。 |
| 9. | Different channel has different shannon limits , only the continuous input and output awgn channel has a compact shannon limit description . but the other channels have no brief description for the limit , so the numerical solution for the limit is needed . this paper introduces the calculation method of multi - dimension integral and linear interpolation , and indicates the usage of these numerical solution methods in the shannon limit calculation
不同信道模型有不同的香农限,只有理想的输入输出均连续的awgn信道有较为简洁的香农限计算,对于其它信道模型的香农限计算难有简明的代数解析解,而只能进行积分方程的数值解计算,所以本文对多重积分的数值解以及线性插值法进行了介绍,并详细的指出了应用数值计算方法计算香农限的过程。 |
