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+"""
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+This code assumes that images used for calibration are of the same arUco marker board provided with code
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+
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+"""
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+
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+import cv2
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+from cv2 import aruco
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+import yaml
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+import numpy as np
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+from pathlib import Path
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+from tqdm import tqdm
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+
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+# root directory of repo for relative path specification.
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+root = Path(__file__).parent.absolute()
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+
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+# Set this flsg True for calibrating camera and False for validating results real time
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+calibrate_camera = True
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+
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+# Set path to the images
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+calib_imgs_path = root.joinpath("aruco_data")
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+
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+# For validating results, show aruco board to camera.
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+aruco_dict = aruco.getPredefinedDictionary( aruco.DICT_6X6_1000 ) # !! Hier Format unserer Marker eingeben
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+
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+#Provide length of the marker's side
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+markerLength = 3.75 # Here, measurement unit is centimetre.
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+
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+# Provide separation between markers
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+markerSeparation = 0.5 # Here, measurement unit is centimetre.
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+
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+# create arUco board
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+board = aruco.GridBoard_create(4, 5, markerLength, markerSeparation, aruco_dict) # !! Das GridBoard könnte man aus opticalSensor.py imortieren? oder einfach nochmal kreieren
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+
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+'''uncomment following block to draw and show the board'''
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+#img = board.draw((864,1080))
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+#cv2.imshow("aruco", img)
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+
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+arucoParams = aruco.DetectorParameters_create()
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+
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+if calibrate_camera == True:
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+ img_list = []
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+ calib_fnms = calib_imgs_path.glob('*.jpg') # auf png bzgl. unserer Marker
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+ print('Using ...', end='')
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+ for idx, fn in enumerate(calib_fnms):
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+ print(idx, '', end='')
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+ img = cv2.imread( str(root.joinpath(fn) ))
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+ img_list.append( img )
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+ h, w, c = img.shape
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+ print('Calibration images')
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+
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+ counter, corners_list, id_list = [], [], []
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+ first = True
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+ for im in tqdm(img_list):
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+ img_gray = cv2.cvtColor(im,cv2.COLOR_RGB2GRAY)
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+ corners, ids, rejectedImgPoints = aruco.detectMarkers(img_gray, aruco_dict, parameters=arucoParams)
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+ if first == True:
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+ corners_list = corners
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+ id_list = ids
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+ first = False
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+ else:
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+ corners_list = np.vstack((corners_list, corners))
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+ id_list = np.vstack((id_list,ids))
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+ counter.append(len(ids))
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+ print('Found {} unique markers'.format(np.unique(ids)))
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+
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+ counter = np.array(counter)
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+ print ("Calibrating camera .... Please wait...")
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+ #mat = np.zeros((3,3), float)
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+ ret, mtx, dist, rvecs, tvecs = aruco.calibrateCameraAruco(corners_list, id_list, counter, board, img_gray.shape, None, None )
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+
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+ print("Camera matrix is \n", mtx, "\n And is stored in calibration.yaml file along with distortion coefficients : \n", dist)
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+ data = {'camera_matrix': np.asarray(mtx).tolist(), 'dist_coeff': np.asarray(dist).tolist()}
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+ with open("calibration.yaml", "w") as f: # !!!
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+ yaml.dump(data, f)
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+
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+else:
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+ camera = cv2.VideoCapture(0)
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+ ret, img = camera.read()
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+
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+ with open('calibration.yaml') as f: # !!!
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+ loadeddict = yaml.load(f)
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+ mtx = loadeddict.get('camera_matrix')
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+ dist = loadeddict.get('dist_coeff')
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+ mtx = np.array(mtx)
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+ dist = np.array(dist)
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+
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+ ret, img = camera.read()
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+ img_gray = cv2.cvtColor(img,cv2.COLOR_RGB2GRAY)
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+ h, w = img_gray.shape[:2]
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+ newcameramtx, roi=cv2.getOptimalNewCameraMatrix(mtx,dist,(w,h),1,(w,h))
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+
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+ pose_r, pose_t = [], []
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+ while True:
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+ ret, img = camera.read()
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+ img_aruco = img
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+ im_gray = cv2.cvtColor(img,cv2.COLOR_RGB2GRAY)
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+ h, w = im_gray.shape[:2]
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+ dst = cv2.undistort(im_gray, mtx, dist, None, newcameramtx)
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+ corners, ids, rejectedImgPoints = aruco.detectMarkers(dst, aruco_dict, parameters=arucoParams)
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+ #cv2.imshow("original", img_gray)
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+ if corners == None:
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+ print ("pass")
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+ else:
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+
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+ ret, rvec, tvec = aruco.estimatePoseBoard(corners, ids, board, newcameramtx, dist) # For a board
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+ print ("Rotation ", rvec, "Translation", tvec)
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+ if ret != 0:
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+ img_aruco = aruco.drawDetectedMarkers(img, corners, ids, (0,255,0))
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+ img_aruco = aruco.drawAxis(img_aruco, newcameramtx, dist, rvec, tvec, 10) # axis length 100 can be changed according to your requirement
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+
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+ if cv2.waitKey(0) & 0xFF == ord('q'):
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+ break;
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+ cv2.imshow("World co-ordinate frame axes", img_aruco)
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+
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+cv2.destroyAllWindows()
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