Stochastic UWB wireless channel modeling and estimation from received signal measurements

机译：随机UWB无线信道建模和接收信号测量的估计

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In this paper, stochastic differential equations (SDEs) are used to model ultra-wideband (UWB) indoor channels. We show that the impulse responses for time-varying wireless channels can be approximated in a mean square sense as close as desired by impulse responses that can be realized by SDEs. The Expected Maximization and Extended Kalman Filter are employed to recursively identify and estimate the channel parameters and states, respectively, from online received signal measurement data. The state variables represent the inphase and quadrature components of the UWB channel. Both resolvable and non-resolvable multipath received signals are considered and represented as small-scaled Nakagami fading. The proposed models together with the estimation algorithm are tested using UWB indoor measurement data and the results are presented.

机译：在本文中，随机微分方程（SDE）用于建模超宽带（UWB）室内信道。我们显示，随时间变化的无线信道的脉冲响应可以通过SDE可以实现的脉冲响应在均方意义上近似为所需的近似值。期望最大化和扩展卡尔曼滤波器用于分别从在线接收的信号测量数据中递归地识别和估计信道参数和状态。状态变量表示UWB通道的同相和正交分量。可分辨的和不可分辨的多径接收信号都被考虑并表示为小规模的中上衰落。利用超宽带室内测量数据对提出的模型和估计算法进行了测试，并给出了结果。

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来源
《Radio and Wireless Symposium, 2009. RWS '09》|2009年|195-198|共4页
会议地点 San Diego CA(US);San Diego CA(US)
作者
Yanyan Li; Olama M.; Djouadi S.; Fathy A.; Kuruganti T.;
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EECS Dept., Univ. of Tennessee, Knoxville, TN;

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Kalman filters; Nakagami channels; channel estimation; differential equations; expectation-maximisation algorithm; indoor communication; nonlinear filters; parameter estimation; stochastic processes; time-varying channels; transient response; ultra wideband communication; channel parameters estimation; expected maximization; extended Kalman filter; impulse responses; received signal measurements; small-scaled Nakagami fading; stochastic UWB wireless channel; stochastic differential equations; time- varying wireless;

机译：卡尔曼滤波器;中上信道;信道估计;微分方程;期望最大化算法;室内通信;非线性滤波器;参数估计;随机过程;时变信道;瞬态响应;超宽带通信;信道参数估计;期望最大化;扩展卡尔曼滤波器;脉冲响应;接收信号测量;小规模Nakagami衰落;随机UWB无线信道;随机微分方程;时变无线;

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专利

1. 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
2. Modeling, Real-Time Estimation, and Identification of UWB Indoor Wireless Channels [J] . Mohammed M.Olama, Seddik M.Djouadi, YanyanLi, International journal of antennas and propagation . 2013,第3aSpecial期

机译：UWB室内无线信道的建模，实时估计和标识
3. Modeling, Real-Time Estimation, and Identification of UWB Indoor Wireless Channels [J] . Mohammed M. Olama, Seddik M. Djouadi, Yanyan Li, International journal of antennas and propagation . 2013,第pta4期

机译：UWB室内无线信道的建模，实时估计和标识
4. Stochastic UWB Wireless Channel Modeling and Estimation from Received Signal Measurements [C] . Yanyan Li, Mohammed Olama, Seddik Djouadi, IEEE Radio and Wireless Symposium . 2009

机译：随机UWB无线信道建模与接收信号测量的估计
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Stochastic UWB wireless channel modeling and estimation from received signal measurements

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