Rational Gauss-Chebyshev Quadratures for Wireless Performance Analysis

Dhungana Yamuna; Tellambura Chintha

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Rational Gauss-Chebyshev Quadratures for Wireless Performance Analysis

机译：无线性能分析的Rational Gauss-Chebyshev正交

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摘要

The convergence rate of the classical Gauss-Chebyshev quadrature (GCQ) rule for wireless performance as a function of the signal-to-noise ratio (SNR) is analyzed. The convergence rate is found to decline as the SNR varies from high to low. Thus, at low SNR, the number of nodes needed to achieve the desired accuracy is extremely high. A generalized rational GCQ rule is thus adopted. The nodes and weights are then computed from a system of orthogonal rational functions. The rational GCQ is much more accurate than the classical GCQ over the entire SNR range. Especially at low SNR, the accuracy is extremely high.

机译：分析了作为信号性能的信噪比（SNR）函数的无线性能的经典高斯切比雪夫（GCQ）规则的收敛速率。随着SNR从高到低变化，收敛速度下降。因此，在低SNR时，实现所需精度所需的节点数非常高。因此采用了广义的有理GCQ规则。然后从正交有理函数系统中计算出节点和权重。在整个SNR范围内，合理的GCQ比传统的GCQ准确得多。尤其是在低SNR时，精度非常高。

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来源
《Wireless Communications Letters, IEEE》 |2013年第2期|215-218|共4页
作者
Dhungana Yamuna; Tellambura Chintha;
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作者单位

Department of Electrical and Computer Engineering, University of Alberta, Edmonton, AB T6G 2V4, Canada;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Accuracy; Chebyshev approximation; Convergence; Rayleigh channels; Signal to noise ratio; Wireless communication; Error probability; Gauss-Chebyshev quadrature; moment generating function; outage probability; signal-to-noise ratio;

机译：准确性;Chebyshev逼近;收敛;瑞利频道;信噪比;无线通信;错误概率;高斯-切比雪夫正交力矩产生功能中断概率;信噪比;

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1. Computing rational Gauss-Chebyshev quadrature formulas with complex poles: The algorithm [J] . Karl Deckers, Joris Van Deun, Adhemar Bultheel Advances in Engineering Software . 2009,第8期

机译：计算具有复极点的有理Gauss-Chebyshev正交公式：算法
2. Rational Gauss-Chebyshev quadrature formulas for complex poles outside [-1,1] [J] . Deckers K, Van Deun J, Bultheel A Mathematics of computation . 2008,第262期

机译：[-1,1]以外的复极点的有理Gauss-Chebyshev正交公式
3. On computing rational Gauss-Chebyshev quadrature formulas [J] . Van Deun J, Bultheel A, Vera PG Mathematics of computation . 2006,第253期

机译：关于计算有理Gauss-Chebyshev正交公式
4. Computing Rational Gauss-Chebyshev Quadrature Formulas with Complex Poles [C] . K. Deckers, J. Van Deun, A. Bultheel International Conference on Engineering Computational Technology . 2006

机译：计算Rational Gauss-Chebyshev正交公式，配有复杂的杆子
5. Gauss-Chebyshev Quadratures for Wireless Performance Analysis. [D] . Wang, Maolin. 2014

机译：用于无线性能分析的高斯-切比雪夫正交。
6. Application of NOMA in Wireless System with Wireless Power Transfer Scheme: Outage and Ergodic Capacity Performance Analysis [O] . Dinh-Thuan Do, Chi-Bao Le 2018

机译：NOMA在具有无线功率传输方案的无线系统中的应用：中断和遍历容量性能分析
7. Rational Gauss-Chebyshev Quadratures for Wireless Performance Analysis [O] . Yamuna Dhungana, Chintha Tellambura 2013

机译：Rational Gauss-Chebyshev用于无线绩效分析的四轮
8. Probability of Error Analysis Using a Gauss-Chebyshev Quadrature Rule [R] . Radermacher, M. J. 1999

机译：利用Gauss-Chebyshev求积法进行误差分析的概率

Rational Gauss-Chebyshev Quadratures for Wireless Performance Analysis

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