def create_detector_drawer_chessboard():
    rows = 7
    cols = 6
    square_size = 0.108  #108 mmc
    pattern_type = CHESSBOARD
    return (PatternDetector(rows=rows,
                            cols=cols,
                            pattern_type=pattern_type,
                            square_size=square_size),
            PatternDrawer(rows=rows, cols=cols))
def create_detector_drawer_circles():
    rows = 5
    cols = 3
    square_size = 0.04  #4 cm
    pattern_type = ASYMMETRIC_CIRCLES_GRID
    return (PatternDetector(rows=rows,
                            cols=cols,
                            pattern_type=pattern_type,
                            square_size=square_size),
            PatternDrawer(rows=rows, cols=cols))
Exemple #3
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parser = argparse.ArgumentParser(description='Pose from a list of files.')
parser.add_argument('--images', nargs='+', help='A list of images.')
parser.add_argument('--camera', help='The camera file.')
args = parser.parse_args()

image_reader = ImageReader(file_list=ecto.list_of_strings(args.images))

rows = 4
cols = 5
square_size = 0.025  #2.5 cm
pattern_type = CHESSBOARD

rgb2gray = cvtColor(flag=Conversion.RGB2GRAY)

detector = PatternDetector(rows=rows,
                           cols=cols,
                           pattern_type=pattern_type,
                           square_size=square_size)

pattern_drawer = PatternDrawer(rows=rows, cols=cols)
camera_intrinsics = CameraIntrinsics(camera_file=args.camera)
poser = FiducialPoseFinder()
pose_drawer = PoseDrawer()
plasm = ecto.Plasm()
plasm.connect(
    image_reader['image'] >> (pattern_drawer['input'], rgb2gray['image']),
    rgb2gray['image'] >> detector['input'],
    detector['ideal', 'out', 'found'] >> poser['ideal', 'points', 'found'],
    camera_intrinsics['K'] >> poser['K'],
    detector['out', 'found'] >> pattern_drawer['points', 'found'],
    poser['R', 'T'] >> pose_drawer['R', 'T'],
    poser['R'] >> MatPrinter(name='R')['mat'],
Exemple #4
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im2mat_rgb = ecto_ros.Image2Mat()
im2mat_depth = ecto_ros.Image2Mat()

im2info = ecto_ros.CameraInfo2Cv()

offset_x = -0.3095 #TODO: FIXME hard coded
offset_y = -0.1005
rows = 5
cols = 3
square_size = 0.1 #2.5 cm
pattern_type = ASYMMETRIC_CIRCLES_GRID

cd_bw = PatternDetector('Dot Detector, B/W',
                                                rows=rows, cols=cols,
                                                pattern_type=pattern_type,
                                                square_size=square_size,
                                                offset_x=offset_x,
                                                offset_y=offset_y)

offset_x = 0.1505
cd_wb = PatternDetector('Dot Detector, W/B',
                                                rows=rows, cols=cols,
                                                pattern_type=pattern_type,
                                                square_size=square_size,
                                                offset_x=offset_x,
                                                offset_y=offset_y)

circle_drawer = PatternDrawer(rows=rows, cols=cols)
circle_drawer2 = PatternDrawer(rows=rows, cols=cols)

gather = calib.GatherPoints("gather", N=2)
Exemple #5
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height = 0.216
offset_x = -(width / 2 - 0.06)
offset_y = -(height / 2 - 0.020)

print "ox", offset_x, "oy", offset_y

simulator = PlanarSim(image_name=board, width=width, height=height)

square_size = 0.02  # in meters, 2 cm
pattern_type = ASYMMETRIC_CIRCLES_GRID

pattern_show = imshow('Display', name='pattern')
rgb2gray = cvtColor('RGB -> Gray', flag=Conversion.RGB2GRAY)
circle_detector = PatternDetector(rows=rows,
                                  cols=cols,
                                  pattern_type=pattern_type,
                                  square_size=square_size,
                                  offset_x=offset_x,
                                  offset_y=offset_y)

circle_drawer = PatternDrawer(rows=rows, cols=cols)
poser = FiducialPoseFinder()
pose_drawer = PoseDrawer()
gt_drawer = PoseDrawer()
plasm = ecto.Plasm()
plasm.connect(
    simulator['image'] >> (rgb2gray['image'], circle_drawer['input']),
    rgb2gray['image'] >> circle_detector['input'],
    circle_detector['out', 'found'] >> circle_drawer['points', 'found'],
    simulator['K'] >> poser['K'],
    circle_detector['out', 'ideal', 'found'] >> poser['points', 'ideal',
                                                      'found'],