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Customize Labeling View

In信号标签you can use the spectrum or spectrogram view to inspect signals. You can also use the time-frequency view to aid labeling.

小费

要切换标签查看器,请单击展示选项卡和选择Label Viewerin the视图部分。

Visualize Signal Spectra and Spectrograms

频谱视图

要激活信号的频域视图,请单击展示选项卡和选择Spectrumin the视图部分。The app displays a set of axes with the signal power spectrum and aSpectrum选项选项,以控制视图。

信号标签缩放频谱,因此,如果信号的频率含量完全落在垃圾箱内,则其振幅在该箱中是信号的真正平均功率。例如,正弦曲线的平均功率是正弦振幅平方的一半。有关更多详细信息,请参阅<一个href="//www.tatmou.com/help/signal/ug/measuring-the-power-of-deterministic-periodic-signals.html" class="a">测量确定性周期性信号的功率。

信号标签使用与Signal Analyzer。有关更多信息,请参阅<一个href="//www.tatmou.com/help/signal/ug/spectrum-computation-in-signal-analyzer.html" class="a">Spectrum Computation in Signal Analyzer。

笔记

显示频谱时,信号标签使用使用10log10(力量)

Spectrogram View

要激活信号的时频视图,请单击展示选项卡和选择Spectrogramin the视图部分。该应用显示一组具有信号谱图和A的轴Spectrogram选项选项,以控制视图。You can plot the spectrogram of only one signal per display.

To apply reassignment to a spectrogram, check重新分配in theSpectrogram标签。重新分配技术通过将每个功率谱估计到其能量中心的位置来重新分配频谱图的时间和频率定位。如果您的信号包含定位良好的时间或光谱组件,则此选项会生成一个易于读取和解释的频谱图。

信号标签使用与Signal Analyzer。有关更多信息,请参阅<一个href="//www.tatmou.com/help/signal/ug/spectrogram-computation-in-signal-analyzer.html" class="a">Spectrogram Computation in Signal Analyzer。

小费

使用多通道成员中一个信号的光谱图视图,以更好地标记该成员在时频域中更清晰可见的感兴趣区域。

Settings

  • 如果将Panner激活并放大了特定的感兴趣区域(ROI),则显示器对应于感兴趣的区域,而不是整个信号。

  • 如果您在时间图中使用其中一个缩放动作放大了信号的区域展示tab, the display corresponds to the region of interest, not the entire signal.

  • You cannot zoom out in frequency beyond the Nyquist range.

If a signal is nonuniformly sampled, then信号标签将信号插入均匀的网格以计算光谱估计值。该应用使用线性插值,并假设样品时间等于相邻时间点之间差异的中值。为了支持不均匀的采样信号,中间时间间隔和平均时间间隔必须遵守金宝app

1 100 < 中间时间间隔 平均时间间隔 < 100。

使用频谱图辅助标签

To label a member using the spectrogram view, select the check box next to the signal you want to plot in the标记的信号集浏览器一个nd activate the spectrogram view. Select the label definition you want to apply on theLabel Definitions浏览器。Draw Labels当标签定义是ROI或点时,会自动激活。在设定值部分Labeler选项卡,或在绘制标签后分配值。单击频谱图添加标签:

  • For ROI labels, click and drag the animated dashed line to create a shaded region. Move and resize the active region until it encloses the region of interest.

  • For point labels, move the animated dashed line until it crosses the signal at the point of your choice.

To accept a label, click theAcceptcheck mark in the选项部分,按进入,或双击活动区域或线路。绘制随后的标签时自动接受标签。

小费

时频视图可用于识别和标记嵌入在宽带信号中的瞬态窄带信号。有关更多信息,请参阅<一个href="//www.tatmou.com/help/signal/ug/find-interference-using-persistence-spectrum.html" class="a">Find Interference Using Persistence Spectrum。

Example: Label a Signal in Spectrogram View

打开Live Script

Generate a signal composed of a voltage-controlled oscillator and four Gaussian atoms. The signal is sampled at 1.4 kHz. UseSpectrogramin<一个href="//www.tatmou.com/help/signal/ref/signallabeler-app.html" class="a">信号标签在信号中标记高斯原子。

fs = 1400; t = (0:1/fs:2)'; gaussFun = @(A,x,mu,f) exp(-(x-mu).^2/(2*0.01^2)).*sin(2*pi*f.*x)*A'; s = gaussFun([1 1 1 1],t,[0.2 0.5 1 1.75],[2 6 2 5]*100)/10; x = vco(chirp(t+.1,0,t(end),3).*exp(-2*(t-1).^2),[0.1 0.4]*fs,fs); s = s/10+x;

打开信号标签并导入信号:

  1. Labeler选项卡,单击进口, 选择从工作区in theMembers列表,然后选择svariable in the dialog box that appears.

  2. Set the time information. Select时间from the在工作下拉列表,选择采样率,,,,一个nd specify the sample rate as1。4千赫

  3. 点击进口一个nd close the dialog box.

  4. 选择“信号名称”旁边的复选框标记的信号集浏览器在时间情节中显示信号。

振荡的ChirP主导信号并在时间情节中掩盖原子。

Create a signal label definition:

  1. 点击添加定义并选择Add label definition

  2. 在里面dialog box, specify标签名称作为原子,,,,Label Type作为ROI,,,,一个ndData Type作为逻辑

  3. 点击OK

展示选项卡,单击Spectrogramin the视图section to activate the spectrogram view of the signal. Adjust the spectrogram settings in theSpectrogram标签。在里面时间Resolutionsection,指定一个Resolutionof120ms重叠of99%

The locations of the atoms are visible in the spectrogram.

Label the atoms:

  1. 在里面Labeler选项卡,选择标签定义Label Definitions浏览器。

  2. 指定the label value astruein the设定值部分。

  3. 点击the spectrogram plot to draw the label. Click and drag the animated dashed line to create a shaded region. Move and resize the active region until it encloses the first atom.

  4. 点击the spectrogram plot again to draw the label for a different atom. The app automatically accepts the previous label.

  5. Repeat the procedure to label the other two atoms.

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