Markers scene description ========================= The ArGaze toolkit provides [ArUcoScene](/argaze/#argaze.ArUcoMarkers.ArUcoScene) class to describe where [ArUcoMarkers](/argaze/#argaze.ArUcoMarkers.ArUcoMarker) are placed into a 3D model. ![ArUco scene](../../img/aruco_scene.png) [ArUcoScene](/argaze/#argaze.ArUcoMarkers.ArUcoScene) is useful to: * filter markers that belongs to this predefined scene, * check the consistency of detected markers according the place where each marker is expected to be, * estimate the pose of the scene from the pose of detected markers. ArUco scene description uses common OBJ file format that can be exported from most 3D editors. Notice that plane normals (vn) needs to be exported. ``` obj o DICT_APRILTAG_16h5#0_Marker v -3.004536 0.022876 2.995370 v 2.995335 -0.015498 3.004618 v -2.995335 0.015498 -3.004618 v 3.004536 -0.022876 -2.995370 vn 0.0064 1.0000 -0.0012 s off f 1//1 2//1 4//1 3//1 o DICT_APRILTAG_16h5#1_Marker v -33.799068 46.450645 -32.200436 v -27.852505 47.243549 -32.102116 v -34.593925 52.396473 -32.076626 v -28.647360 53.189377 -31.978306 vn -0.0135 -0.0226 0.9997 s off f 5//2 6//2 8//2 7//2 ... ``` [ArUcoScene](/argaze/#argaze.ArUcoMarkers.ArUcoScene) description can also be written in a JSON file format. ``` json { "dictionary": "DICT_ARUCO_ORIGINAL", "marker_size": 1, "places": { "0": { "translation": [0, 0, 0], "rotation": [0, 0, 0] }, "1": { "translation": [10, 10, 0], "rotation": [0, 0, 0] }, "2": { "translation": [0, 10, 0], "rotation": [0, 0, 0] } } } ``` Here is a sample of code to show the loading of an [ArUcoScene](/argaze/#argaze.ArUcoMarkers.ArUcoScene) OBJ file description: ``` python from argaze.ArUcoMarkers import ArUcoScene # Create an ArUco scene from a OBJ file description aruco_scene = ArUcoScene.ArUcoScene.from_obj('./markers.obj') # Print loaded marker places for place_id, place in aruco_scene.places.items(): print(f'place {place_id} for marker: ', place.marker.identifier) print(f'place {place_id} translation: ', place.translation) print(f'place {place_id} rotation: ', place.rotation) ``` ## Markers filtering Considering markers are detected, here is how to filter them to consider only those which belongs to the scene: ``` python scene_markers, remaining_markers = aruco_scene.filter_markers(aruco_detector.detected_markers) ``` ## Marker poses consistency Then, scene markers poses can be validated by verifying their spatial consistency considering angle and distance tolerance. This is particularly useful to discard ambiguous marker pose estimations when markers are parallel to camera plane (see [issue on OpenCV Contribution repository](https://github.com/opencv/opencv_contrib/issues/3190#issuecomment-1181970839)). ``` python # Check scene markers consistency with 10° angle tolerance and 1 cm distance tolerance consistent_markers, unconsistent_markers, unconsistencies = aruco_scene.check_markers_consistency(scene_markers, 10, 1) ``` ## Scene pose estimation Several approaches are available to perform [ArUcoScene](/argaze/#argaze.ArUcoMarkers.ArUcoScene) pose estimation from markers belonging to the scene. The first approach considers that scene pose can be estimated **from a single marker pose**: ``` python # Let's select one consistent scene marker marker_id, marker = consistent_markers.popitem() # Estimate scene pose from a single marker tvec, rmat = self.aruco_scene.estimate_pose_from_single_marker(marker) ``` The second approach considers that scene pose can be estimated by **averaging several marker poses**: ``` python # Estimate scene pose from all consistent scene markers tvec, rmat = self.aruco_scene.estimate_pose_from_markers(consistent_markers) ``` The third approach is only available when ArUco markers are placed in such a configuration that is possible to **define orthogonal axis**: ``` python tvec, rmat = self.aruco_scene.estimate_pose_from_axis_markers(origin_marker, horizontal_axis_marker, vertical_axis_marker) ```