阿达玛光谱法的实施问题

6th IEEE Conference Record., Instrumentation and Measurement Technology Conference Pub Date : 1989-04-25 DOI:10.1109/IMTC.1989.36900

R. Dyer, S. Dyer, B. Harms, T. W. Johnson, J.B. Park

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引用次数: 2

摘要

阿达玛变换光谱所提供的多路复用技术可以提高光谱仪输出信号的信噪比。传统上，Hadamard逆变换(IHT)用于恢复单个频谱分量，但IHT没有考虑与复用过程相关的非理想性。建立了一个系统模型，解决了多路复用器中的非理想性、检测器处引入的噪声以及频谱恢复方法的选择。该模型的计算机模拟已经开发出来，并可用于检查可能通常遇到的某些非理想性的影响。研究了三种不同的频谱恢复方案，并就均方误差和实现它们所需的算法的计算效率对它们的相对性能进行了比较。给出了一个应用实例，并讨论了三种频谱恢复方案的性能。

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Implementation problems in Hadamard spectrometry

The multiplexing offered by Hadamard-transform spectrometry can improve the signal-to-noise ratio at the output of a spectrometer. Traditionally, the inverse Hadamard transform (IHT) has been used to recover the individual spectral components, but the IHT does not take into account the nonidealities associated with the multiplexing process. A system model has been developed which addresses nonidealities in the multiplexer, noise introduced at the detector, and choice of method for spectrum recovery. A computer simulation of the model has been developed and can be used to examine the effect of certain nonidealities that may typically be encountered. Three different spectrum-recovery schemes are examined, and their relative performance is compared with regard to mean-square error and to the computational efficiency of the algorithms necessary to implement them. An example application is described, and the performance of the three spectrum-recovery schemes is discussed.<>

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6th IEEE Conference Record., Instrumentation and Measurement Technology Conference

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