一种高吞吐量DLMS自适应算法

2005 IEEE International Symposium on Circuits and Systems Pub Date : 2005-05-23 DOI:10.1109/ISCAS.2005.1465446

Ejaz Mahfuz, Chunyan Wang, M. Ahmad

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引用次数: 19

摘要

高吞吐量延迟LMS (high-throughput delayed LMS, DLMS)自适应算法的收敛速度比LMS算法慢。不同版本的DLMS自适应算法采用了一种转换方案，以提高收敛速度。这种改进的收敛是以比原始DLMS算法更高的计算复杂度和更低的吞吐率为代价的。我们提出了一种新的改进的DLMS自适应算法，与现有的基于转换的DLMS算法相比，在相似的收敛速度下提供了更高的吞吐率。另外，与基于转换的DLMS算法相比，该算法在相同的吞吐率下提供了更快的收敛速度。在这两种情况下，所提算法的计算复杂度都小于基于转换的DLMS算法。该算法利用自适应FIR滤波器各阶段的误差信号独立更新相应系数的值。仿真结果表明了新算法的收敛性能。其架构的性能是根据计算复杂性、吞吐量和延迟来评估的。与基于转换的DLMS算法相比，该算法具有更高的吞吐率和更低的计算复杂度。

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A high-throughput DLMS adaptive algorithm

The high-throughput delayed LMS (DLMS) adaptive algorithm suffers from a slower convergence rate compared to the LMS algorithm. Different versions of the DLMS adaptive algorithm using a conversion scheme have been proposed to improve the convergence rate. This improved convergence was achieved at the expense of an increased computational complexity and a lower throughput rate than the original DLMS algorithm. We propose a new modified DLMS adaptive algorithm that, compared to the existing conversion-based DLMS algorithm, provides a higher throughput rate for a similar convergence rate. Alternatively, the proposed algorithm provides a faster convergence for the same throughput rate compared to the conversion-based DLMS algorithm. In both the cases, the computational complexity of the proposed algorithm is smaller than that of the conversion-based DLMS algorithm. The proposed algorithm uses the error signal from each stage of the adaptive FIR filter independently to update the value of the corresponding coefficient. Simulations illustrate the convergence performance of the new algorithm. The performance of its architecture is evaluated in terms of computational complexity, throughput, and latency. The proposed algorithm provides a better throughput rate and a computational complexity lower than that of the conversion-based DLMS algorithm.

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2005 IEEE International Symposium on Circuits and Systems

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