コード例 #1
0
    def run(self):
        while True:
            img = self.capture.read()

            #blur the source image to reduce color noise
            cv2.blur(img, img, 3)

            #convert the image to hsv(Hue, Saturation, Value) so its
            #easier to determine the color to track(hue)
            hsv_img = cv2.CreateImage(cv2.GetSize(img), 8, 3)
            cv2.CvtColor(img, hsv_img, cv2.CV_BGR2HSV)

            #limit all pixels that don't match our criteria, in this case we are
            #looking for purple but if you want you can adjust the first value in
            #both turples which is the hue range(120,140).  OpenCV uses 0-180 as
            #a hue range for the HSV color model
            greenLower = (20, 190, 165)
            greenUpper = (30, 225, 220)
            thresholded_img = cv2.CreateImage(cv2.GetSize(hsv_img), 8, 1)
            cv2.InRangeS(hsv_img, greenLower, greenUpper, thresholded_img)

            #determine the objects moments and check that the area is large
            #enough to be our object
            moments = cv2.Moments(thresholded_img, 0)
            area = cv2.GetCentralMoment(moments, 0, 0)

            #there can be noise in the video so ignore objects with small areas
            if (area > 100000):
                #determine the x and y coordinates of the center of the object
                #we are tracking by dividing the 1, 0 and 0, 1 moments by the area
                x = cv2.GetSpatialMoment(moments, 1, 0) / area
                y = cv2.GetSpatialMoment(moments, 0, 1) / area

                #print 'x: ' + str(x) + ' y: ' + str(y) + ' area: ' + str(area)

                #create an overlay to mark the center of the tracked object
                overlay = cv2.CreateImage(cv2.GetSize(img), 8, 3)

                cv2.Circle(overlay, (x, y), 2, (255, 255, 255), 20)
                cv2.Add(img, overlay, img)
                #add the thresholded image back to the img so we can see what was
                #left after it was applied
                cv2.Merge(thresholded_img, None, None, None, img)

            #display the image
            cv2.ShowImage(color_tracker_window, img)

            if cv2.WaitKey(10) == 27:
                break
コード例 #2
0
cv.SetCaptureProperty(capture, cv.CV_CAP_PROP_FRAME_WIDTH, 1280)
cv.SetCaptureProperty(capture, cv.CV_CAP_PROP_FRAME_HEIGHT, 720)
frame = cv.QueryFrame(capture)
test = cv.CreateImage(cv.GetSize(frame), 8, 3)
cv.NamedWindow("output")
previous_x = 0
previous_y = 0
while (1):
    frame = cv.QueryFrame(capture)
    cv.Flip(frame, frame, 1)
    # we make all drawings on imdraw.
    imdraw = cv.CreateImage(cv.GetSize(frame), 8, 3)
    # we get coordinates from imgyellowthresh
    imgyellowthresh = getthresholdedimg(frame)
    # eroding removes small noises
    cv.Erode(imgyellowthresh, imgyellowthresh, None, 1)
    (leftmost, rightmost, topmost, bottommost) = getpositions(imgyellowthresh)
    if (leftmost - rightmost != 0) or (topmost - bottommost != 0):
        lastx = posx
        lasty = posy
        posx = cv.Round((rightmost + leftmost) / 2)
        posy = cv.Round((bottommost + topmost) / 2)
        if lastx != 0 and lasty != 0:
            win32api.SetCursorPos((posx, posy))

    cv.Add(test, imdraw, test)
    cv.ShowImage("output", test)
    if cv.WaitKey(10) >= 0:
        break
cv.DestroyWindow("output")
コード例 #3
0
    def run(self):
        #initiate font
        font = cv.InitFont(cv.CV_FONT_HERSHEY_SIMPLEX, 1, 1, 0, 3, 8)
        # instantiate images
        hsv_img = cv.CreateImage(cv.GetSize(cv.QueryFrame(self.capture)), 8, 3)
        threshold_img1 = cv.CreateImage(cv.GetSize(hsv_img), 8, 1)
        threshold_img1a = cv.CreateImage(cv.GetSize(hsv_img), 8, 1)
        threshold_img2 = cv.CreateImage(cv.GetSize(hsv_img), 8, 1)
        i = 0
        writer = cv.CreateVideoWriter('angle_tracking.avi', cv.CV_FOURCC('M', 'J', 'P', 'G'), 30, cv.GetSize(hsv_img), 1)

        while True:
            # capture the image from the cam
            img = cv.QueryFrame(self.capture)

            # convert the image to HSV
            cv.CvtColor(img, hsv_img, cv.CV_BGR2HSV)

            # threshold the image to isolate two colors
            cv.InRangeS(hsv_img, (165, 145, 100), (250, 210, 160), threshold_img1)  # red
            cv.InRangeS(hsv_img, (0, 145, 100), (10, 210, 160), threshold_img1a)  # red again
            cv.Add(threshold_img1, threshold_img1a, threshold_img1)  # this is combining the two limits for red
            cv.InRangeS(hsv_img, (105, 180, 40), (120, 260, 100), threshold_img2)  # blue

            # determine the moments of the two objects
            threshold_img1 = cv.GetMat(threshold_img1)
            threshold_img2 = cv.GetMat(threshold_img2)
            moments1 = cv.Moments(threshold_img1, 0)
            moments2 = cv.Moments(threshold_img2, 0)
            area1 = cv.GetCentralMoment(moments1, 0, 0)
            area2 = cv.GetCentralMoment(moments2, 0, 0)

            # initialize x and y
            x1, y1, x2, y2 = (1, 2, 3, 4)
            coord_list = [x1, y1, x2, y2]
            for x in coord_list:
                x = 0

            # there can be noise in the video so ignore objects with small areas
            if (area1 > 200000):
                # x and y coordinates of the center of the object is found by dividing the 1,0 and 0,1 moments by the area
                x1 = int(cv.GetSpatialMoment(moments1, 1, 0) / area1)
                y1 = int(cv.GetSpatialMoment(moments1, 0, 1) / area1)

            # draw circle
            cv.Circle(img, (x1, y1), 2, (0, 255, 0), 20)

            # write x and y position
            cv.PutText(img, str(x1) +', '+str(y1), (x1, y1 + 20), font, 255)  # Draw the text

            if (area2 > 100000):
                # x and y coordinates of the center of the object is found by dividing the 1,0 and 0,1 moments by the area
                x2 = int(cv.GetSpatialMoment(moments2, 1, 0) / area2)
                y2 = int(cv.GetSpatialMoment(moments2, 0, 1) / area2)

                # draw circle
                cv.Circle(img, (x2, y2), 2, (0, 255, 0), 20)

            cv.PutText(img, str(x2) +', '+str(y2), (x2, y2 + 20), font, 255)  # Draw the text
            cv.Line(img, (x1, y1), (x2, y2), (0, 255, 0), 4, cv.CV_AA)
            # draw line and angle
            cv.Line(img, (x1, y1), (cv.GetSize(img)[0], y1), (100, 100, 100, 100), 4, cv.CV_AA)
            x1 = float(x1)
            y1 = float(y1)
            x2 = float(x2)
            y2 = float(y2)
            angle = int(math.atan((y1 - y2) / (x2 - x1)) * 180 / math.pi)
            cv.PutText(img, str(angle), (int(x1) + 50, (int(y2) + int(y1)) / 2), font, 255)

            # cv.WriteFrame(writer,img)

            # display frames to users
            cv.ShowImage('Target', img)
            cv.ShowImage('Threshold1', threshold_img1)
            cv.ShowImage('Threshold2', threshold_img2)
            cv.ShowImage('hsv', hsv_img)
            # Listen for ESC or ENTER key
            c = cv.WaitKey(7) % 0x100
            if c == 27 or c == 10:
                break
            cv.DestroyAllWindows()
コード例 #4
0
# coding:UTF-8

import cv2
from src import App

img_file = App.resource_file("/opencv/timg.jpg")
im = cv2.imread(img_file, 0)

sobx = cv2.CreateImage(cv2.GetSize(im), cv2.IPL_DEPTH_16S, 1)
#Sobel with x-order=1
cv2.Sobel(im, sobx, 1, 0, 3)

soby = cv2.CreateImage(cv2.GetSize(im), cv2.IPL_DEPTH_16S, 1)
#Sobel withy-oder=1
cv2.Sobel(im, soby, 0, 1, 3)

cv2.Abs(sobx, sobx)
cv2.Abs(soby, soby)

result = cv2.CloneImage(im)
#Add the two results together.
cv2.Add(sobx, soby, result)

cv2.Threshold(result, result, 100, 255, cv2.CV_THRESH_BINARY_INV)

cv2.ShowImage('Image', im)
cv2.ShowImage('Result', result)

cv2.WaitKey(0)