.. _shi_tomasi: Shi-Tomasi Corner Detector & Good Features to Track ******************************************************* Goal ======= In this chapter, * We will learn about the another corner detector: Shi-Tomasi Corner Detector * We will see the function: **cv2.goodFeaturesToTrack()** Theory ========= In last chapter, we saw Harris Corner Detector. Later in 1994, J. Shi and C. Tomasi made a small modification to it in their paper **Good Features to Track** which shows better results compared to Harris Corner Detector. The scoring function in Harris Corner Detector was given by: .. math:: R = \lambda_1 \lambda_2 - k(\lambda_1+\lambda_2)^2 Instead of this, Shi-Tomasi proposed: .. math:: R = min(\lambda_1, \lambda_2) If it is a greater than a threshold value, it is considered as a corner. If we plot it in :math:`\lambda_1 - \lambda_2` space as we did in Harris Corner Detector, we get an image as below: .. image:: images/shitomasi_space.png :alt: Shi-Tomasi Corner Space :align: center From the figure, you can see that only when :math:`\lambda_1` and :math:`\lambda_2` are above a minimum value, :math:`\lambda_{min}`, it is conidered as a corner(green region). Code ======= OpenCV has a function, **cv2.goodFeaturesToTrack()**. It finds N strongest corners in the image by Shi-Tomasi method (or Harris Corner Detection, if you specify it). As usual, image should be a grayscale image. Then you specify number of corners you want to find. Then you specify the quality level, which is a value between 0-1, which denotes the minimum quality of corner below which everyone is rejected. Then we provide the minimum euclidean distance between corners detected. With all these informations, the function finds corners in the image. All corners below quality level are rejected. Then it sorts the remaining corners based on quality in the descending order. Then function takes first strongest corner, throws away all the nearby corners in the range of minimum distance and returns N strongest corners. In below example, we will try to find 25 best corners: :: import numpy as np import cv2 from matplotlib import pyplot as plt img = cv2.imread('simple.jpg') gray = cv2.cvtColor(img,cv2.COLOR_BGR2GRAY) corners = cv2.goodFeaturesToTrack(gray,25,0.01,10) corners = np.int0(corners) for i in corners: x,y = i.ravel() cv2.circle(img,(x,y),3,255,-1) plt.imshow(img),plt.show() See the result below: .. image:: images/shitomasi_block1.jpg :alt: Shi-Tomasi Corners :align: center This function is more appropriate for tracking. We will see that when its time comes. Additional Resources ====================== Exercises ============