def draw_several_cams(geom):

    ncams = 4
    cmaps = [plt.cm.jet, plt.cm.afmhot, plt.cm.terrain, plt.cm.autumn]
    fig, ax = plt.subplots(1, ncams, figsize=(15, 4), sharey=True, sharex=True)

    for ii in range(ncams):
        disp = visualization.CameraDisplay(geom, axes=ax[ii],
                                           title="CT{}".format(ii + 1))

        model = mock.generate_2d_shower_model(centroid=(0.2 - ii * 0.1,
                                                        -ii * 0.05),
                                              width=0.005 + 0.001 * ii,
                                              length=0.1 + 0.05 * ii,
                                              psi=np.radians(ii * 20))

        image, sig, bg = mock.make_mock_shower_image(geom, model.pdf,
                                                     intensity=50,
                                                     nsb_level_pe=1000)

        clean = image.copy()
        clean[image <= 3.0 * image.mean()] = 0.0
        hillas = hillas_parameters(geom.pix_x.value, geom.pix_y.value, clean)

        disp.set_cmap(cmaps[ii])
        disp.set_image(image)
        disp.overlay_moments(hillas, linewidth=3, color='blue')
def draw_several_cams(geom, ncams=4):

    cmaps = ['jet', 'afmhot', 'terrain', 'autumn']
    fig, axs = plt.subplots(1, ncams, figsize=(15, 4), sharey=True, sharex=True)

    for ii in range(ncams):
        disp = visualization.CameraDisplay(
            geom,
            ax=axs[ii],
            title="CT{}".format(ii + 1),
        )
        disp.cmap = cmaps[ii]

        model = mock.generate_2d_shower_model(
            centroid=(0.2 - ii * 0.1, -ii * 0.05),
            width=0.005 + 0.001 * ii,
            length=0.1 + 0.05 * ii,
            psi=ii * 20 * u.deg,
        )

        image, sig, bg = mock.make_mock_shower_image(
            geom,
            model.pdf,
            intensity=50,
            nsb_level_pe=1000,
        )

        clean = image.copy()
        clean[image <= 3.0 * image.mean()] = 0.0
        hillas = hillas_parameters(geom.pix_x, geom.pix_y, clean)

        disp.image = image
        disp.add_colorbar(ax=axs[ii])
        disp.set_limits_percent(95)
        disp.overlay_moments(hillas, linewidth=3, color='blue')
Beispiel #3
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def draw_several_cams(geom):

    ncams = 4
    cmaps = [plt.cm.jet, plt.cm.afmhot, plt.cm.terrain, plt.cm.autumn]
    fig, ax = plt.subplots(1, ncams, figsize=(15, 4), sharey=True, sharex=True)

    for ii in range(ncams):
        disp = visualization.CameraDisplay(geom,
                                           ax=ax[ii],
                                           title="CT{}".format(ii + 1))
        disp.cmap = cmaps[ii]

        model = mock.generate_2d_shower_model(centroid=(0.2 - ii * 0.1,
                                                        -ii * 0.05),
                                              width=0.005 + 0.001 * ii,
                                              length=0.1 + 0.05 * ii,
                                              psi=ii * 20 * u.deg)

        image, sig, bg = mock.make_mock_shower_image(geom,
                                                     model.pdf,
                                                     intensity=50,
                                                     nsb_level_pe=1000)

        clean = image.copy()
        clean[image <= 3.0 * image.mean()] = 0.0
        hillas = hillas_parameters(geom.pix_x.value, geom.pix_y.value, clean)

        disp.image = image
        disp.set_limits_percent(95)
        disp.overlay_moments(hillas, linewidth=3, color='blue')