Optimal Approximation of the Impulse Response of Wireless Channels by Stochastic Differential Equations

Djouadi S. M.; Olama M. M.; Li Y.

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Optimal Approximation of the Impulse Response of Wireless Channels by Stochastic Differential Equations

机译：随机微分方程对无线信道脉冲响应的最佳逼近

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Wireless communication networks are characterized by nodes and scatters mobility which make the propagation environment time-varying and subject to fading. These variations are captured by random time-varying impulse responses. The latter are fairly general finite energy functions of both time and space that cannot be specified by a finite number of parameters. In this letter, we show that the impulse responses can be approximated in a mean square sense as close as desired by impulse responses that can be realized by stochastic differential equations (SDEs). The behaviors of the SDEs are characterized by small finite dimensional parameter sets.

机译：无线通信网络的特征在于节点和分散的移动性，这使传播环境随时间变化并易于衰落。这些变化是通过随机时变脉冲响应捕获的。后者是时间和空间的相当普遍的有限能量函数，无法通过有限数量的参数来指定。在这封信中，我们表明可以通过随机微分方程（SDE）实现的脉冲响应，在均方意义上将脉冲响应近似为所需的近似值。 SDE的行为以较小的有限维参数集为特征。

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《IEEE signal processing letters》 |2008年第1期|p.896-899|共4页
作者
Djouadi S. M.; Olama M. M.; Li Y.;
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正文语种 eng
中图分类通信理论;
关键词
Hilbert space; impulse response; stochastic differential equations;

机译：希尔伯特空间脉冲响应随机微分方程;

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专利

1. Optimal Approximation of the Impulse Response of Wireless Channels by Stochastic Differential Equations [J] . Djouadi S.M., Olama M.M., Yanan Li IEEE signal processing letters . 2008,第期

机译：随机微分方程对无线信道脉冲响应的最佳逼近
2. Optimality of Euler-type algorithms for approximation of stochastic differential equations with discontinuous coefficients [J] . Pawel Przybylowicz International journal of computer mathematics . 2014,第7a8期

机译：具有不连续系数的随机微分方程的Euler型算法的最优性
3. Modeling wireless fading channels via stochastic differential equations: identification and estimation based on noisy measurements [J] . Charalambous C.D., Bultitude R.J.C., Li X., IEEE transactions on wireless communications . 2008,第2期

机译：通过随机微分方程为无线衰落信道建模：基于噪声测量的识别和估计
4. Rate of Convergence of Wong-Zakai Approximations for Stochastic Partial Differential Equations [C] . István Gy?ngy, Pablo Raúl Stinga Seminar on Stochastic Analysis, Random Fields, and Applications . 2013

机译：随机偏微分方程的Wong-Zakai近似率的收敛速度
5. Analysis and finite element approximations of stochastic optimal control problems constrained by stochastic elliptic partial differential equations [D] . Lee, Jangwoon 2008

机译：随机椭圆偏微分方程约束的随机最优控制问题的分析和有限元逼近
6. On stochastic differential equations with arbitrarily slow convergence rates for strong approximation in two space dimensions [O] . Máté Gerencsér, Arnulf Jentzen, Diyora Salimova -1

机译：具有二维空间强逼近的具有任意慢收敛速度的随机微分方程
7. Optimal Approximation of the Impulse Response of Wireless Channels by Stochastic Differential Equations [O] . Seddik M. Djouadi, Mohammed M. Olama, Yanan Li 2008

机译：随机微分方程对无线信道脉冲响应的最佳逼近

Optimal Approximation of the Impulse Response of Wireless Channels by Stochastic Differential Equations

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