Created
July 26, 2017 12:42
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OpenCV camera calibration and undistort
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| import numpy as np | |
| import cv2 | |
| import glob | |
| # termination criteria | |
| criteria = (cv2.TERM_CRITERIA_EPS + cv2.TERM_CRITERIA_MAX_ITER, 30, 0.001) | |
| cbrow = 7 | |
| cbcol = 9 | |
| # prepare object points, like (0,0,0), (1,0,0), (2,0,0) ....,(6,5,0) | |
| objp = np.zeros((cbrow*cbcol,3), np.float32) | |
| objp[:,:2] = np.mgrid[0:cbcol,0:cbrow].T.reshape(-1,2) | |
| # Arrays to store object points and image points from all the images. | |
| objpoints = [] # 3d point in real world space | |
| imgpoints = [] # 2d points in image plane. | |
| images = glob.glob('*.jpg') | |
| for fname in images: | |
| img = cv2.imread(fname) | |
| gray = cv2.cvtColor(img,cv2.COLOR_BGR2GRAY) | |
| # Find the chess board corners | |
| ret, corners = cv2.findChessboardCorners(gray, (cbcol,cbrow),None) | |
| # If found, add object points, image points (after refining them) | |
| if ret == True: | |
| print "%s: success" % fname | |
| objpoints.append(objp) | |
| cv2.cornerSubPix(gray,corners,(11,11),(-1,-1),criteria) | |
| imgpoints.append(corners) | |
| # Draw and display the corners | |
| cv2.drawChessboardCorners(img, (cbcol,cbrow), corners,ret) | |
| cv2.imshow('img',img) | |
| cv2.waitKey(150) | |
| else: | |
| print "%s: failed" % fname | |
| cv2.imshow('img',img) | |
| cv2.waitKey(1) | |
| cv2.destroyAllWindows() | |
| ret, mtx, dist, rvecs, tvecs = cv2.calibrateCamera(objpoints, imgpoints, gray.shape[::-1],None,None) | |
| print "mtx" | |
| print mtx | |
| print "dist" | |
| print dist | |
| mean_error = 0 | |
| for i in xrange(len(objpoints)): | |
| imgpoints2, _ = cv2.projectPoints(objpoints[i], rvecs[i], tvecs[i], mtx, dist) | |
| error = cv2.norm(imgpoints[i],imgpoints2, cv2.NORM_L2)/len(imgpoints2) | |
| mean_error += error | |
| print "total error: ", mean_error/len(objpoints) |
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| import numpy as np | |
| import cv2 | |
| import glob | |
| mtx = np.array([[460.71671753, 0., 288.27396648], [0., 462.18652446, 239.00294897], [0., 0., 1.]]) | |
| dist = np.array([-0.35122887, 0.1698431, 0, 0, -0.05083561]) | |
| images = glob.glob('*.jpg') | |
| for fname in images: | |
| img = cv2.imread(fname) | |
| h,w = img.shape[:2] | |
| newcameramtx, roi = cv2.getOptimalNewCameraMatrix(mtx, dist, (w, h), 0, (w, h)) | |
| dst = cv2.undistort(img, mtx, dist, None, newcameramtx) | |
| # crop the image | |
| x,y,w,h = roi | |
| dst = dst[y:y+h, x:x+w] | |
| cv2.imshow('undist', dst) | |
| cv2.waitKey(800) | |
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