By using the technique of Fast Hadamard Transform(FHT), the Hadamard harmonic potentials for both a.

报导了阿达玛变换在示波计时电位法中的应用。

Jacques Hadamard the shortest path between two truths in the real domain passes through the complex domain.

实域中两个真理之间的最短路程是通过复域。

Modified Hadamard Variance (MHV) has been widely used for the power spectrum measurement of frequency sources.

用修正哈达玛方差(MHV)来测量频率源的谱密度已在国内外广泛流行。

Application of Hadamard transform in nuclear magnetic resonance (NMR) imaging enhances the sensitivity of NMR imaging.

阿达玛变换应用到核磁共振成象技术中，能提高成象技术的灵敏度。

The most striking, and at the same time one of the most useful, is the Hadamard function, appropriately labeled Mix() by qcl.

最引人注目的，同时也是最有用的其中之一就是 Hadamard 函数，qcl 把它恰当的标记为 Mix() 。

On the basis of modified Hadamard transform, a fast algorithm for modied Hadamard transform is established in this paper.

以修正哈达马变换为基础，建立了修正哈达马变换的快速算法。

Encoding template is a key component of Hadamard transform imaging spectrometer. It is used to substitute the incident slit and exit slit.

编码模板是阿达玛变换成像光谱仪的关键部件，用以代替入射狭缝和出射狭缝。

The Mix() operator (Hadamard operator) when applied to a bit in the |0> state will transform the state into sqrt(0.5)(|0>+|1>) as in the example above.

Mix() 运算符（Hadamard 运算符）用于处于 |0> 状态的位时，将会象上面的例子一样把状态转变成 sqrt(0.5)(|0>+|1>) 。

On the sequence-ordering problem, the conversion rules among the sequoncy ordering, binary ordering, and the Hadamard -matrices ordering have been given.

在定序问题上，通过二进制码与格雷码间的转换，列出三种序数-序率序数、二进制序数与哈德玛矩阵序数一之间的转换规则。

Fast Hadamard transform (FHT) is a basic transformation in digital signal processing, which is widely used in mobile communications and Multimedia coding.

快速哈达玛变换(FHT)是数字信号处理中的基本变换之一，在移动通信、多媒体编解码中得到了广泛的应用。

The principle and instrument structure of Hadamard transform spectral imager is described, and spectra aliasing caused by Hadamard encoding mask is investigated.

叙述了阿达玛变换光谱成像仪的原理及仪器构成，对阿达玛编码模板引起的光谱混叠现象进行了分析研究。

In this paper we explained the principle of line scan Hadamard transform NMR imaging and deducted the relation of Hadamard cede to the phase of excitation signals.

本文阐述了阿达玛变换在线扫描核磁共振成象中应用原理，推出了合成的激发信号相位与阿达玛编码关系。

The principle of Hadamard transform multiplexed imaging, the encoding and decoding of signal and the quantitative method of single cells were investigated in detail.

对系统的成像原理、信号编码和解码方法及单细胞定量分析方法进行了讨论。

The result of the testing show that the Hadamard transform capillary electrophoresis system this system can achieve the acquiring and processing of the fluorescence signal.

测试结果表明，利用本系统可以完成荧光信号采集和哈达玛变换的数据处理。

The experimental result indicates that Hadamard transform is applied in spectral measurement, and the SNR can be improved effectively when the measurement times are not increased.

实验结果表明，将阿达玛变换应用于激光光谱测量，在不增加测量次数的情况下，可以有效地提高系统的信噪比。