Esempio n. 1
0
            print("Defining Converter ...")
            header = Header()
            header.w = pca_data[0].shape[1]  # input image width
            header.h = pca_data[0].shape[0]  # input image height, trimmed
            header.sf = 4000000  # magic number, sorry!
            probe = Probe()
            probe.radius = 10000  # based on '10' in transducer model number
            probe.numElements = 128  # based on '128' in transducer model number
            probe.pitch = 185  # based on Ultrasonix C9-5/10 transducer
            conv = Converter(header, probe)

        print("Defining region of interest ...")

        # get mean frame and apply mask
        mean_frame = pca_data.mean(axis=0)
        conv_mean = np.flipud(conv.convert(np.flipud(mean_frame)))
        plt.title("Mean frame, Spkr {:}".format(subject))
        plt.imshow(conv_mean, cmap="Greys_r")
        file_ending_mean = "subj{:}_mean.pdf".format(subject)
        savepath_mean = os.path.join(root, d, file_ending_mean)
        plt.savefig(savepath_mean)
        roi_upper = 600
        roi_lower = 300
        roi_left = 20
        roi_right = 100

        # TODO give mask converted shape
        while True:
            mask = us.roi(mean_frame,
                          upper=roi_upper,
                          lower=roi_lower,
Esempio n. 2
0
    start_extr = frame_indices[0]
    end_extr = frame_indices[-1]

    # extract and convert v.t1 - v.t2 range
    for idx in range(start_extr, (end_extr)):

        # extract frame using RawReader
        unconv_frame = rdr.get_frame(idx)

        # trim junk pixels off of top
        trimmed_frame = unconv_frame[junk:, :]
        if args.flop:
            trimmed_frame = np.fliplr(trimmed_frame)

        # convert to fan shape
        conv_frame = conv.convert(np.flipud(trimmed_frame))
        ready_frame = np.flipud(conv_frame)

        # create frame handle and save to copy dir
        fh = basename + "." + "{0:05d}".format(idx) + ".bmp"
        out_img = Image.fromarray(ready_frame)
        out_img.save(os.path.join(copy_dir, fh))

    frame_exp = os.path.join(copy_dir, basename + ".%05d.bmp")
    print(frame_exp)
    framerate = 25  # TODO tweak/automatically get
    out_fh = basename + '.avi'
    out_path = os.path.join(copy_dir, out_fh)
    avi_args = [
        'ffmpeg', '-y', '-i', frame_exp, '-framerate',
        str(framerate), '-vcodec', 'huffyuv', out_path