Пример #1
0
    def image_handler(self, channel, data):
        msg = image_t.decode(data)
        im = np.asarray(bytearray(msg.data), dtype=np.uint8).reshape(msg.height, msg.width)
        bf_heatmap = im / 255.0

        # get maximum value in heatmap, push to variable for plotting in local frame
        el, az = np.unravel_index(im.argmax(), im.shape)
        az_el = np.array([[az * np.pi / 180.0], [el * np.pi / 180.0]])
        cv2.circle(im, (az, el), 5, (0, 0, 0))
        lRb_val = self.prtObj.lRb()
        self.imu_max = np.dot(lRb_val.T, np.matrix(self.prtObj.bRpe_pt(az_el)))

        self.prtObj.upStateAcoustics_mod(bf_heatmap, im)

        # print 'VICON azimuth elevation transforms:'
        for i in range(0, self.N):
            t = self.prtObj.peRb_pt(
                np.dot(self.vicon_lRb.T, self.prtObj.particles_l[:, i : i + 1])
            )  # local all the way to plane
            if t[0, 0] < 0:
                t[0, 0] = t[0, 0] + 2 * np.pi
            # print t[0,0]*180/np.pi, t[1,0]*180/np.pi
            # cv2.circle(im, (int(t[0,0]*180/np.pi),int(t[1,0]*180/np.pi)), 3, (0,0,0))

        cv2.imshow("img", im)
        cv2.waitKey(10)
Пример #2
0
 def decode(self, data): 
     msg = image_t.decode(data)
     if msg.pixelformat == image_t.PIXEL_FORMAT_GRAY: 
         return im_resize(np.asarray(bytearray(msg.data), dtype=np.uint8).reshape(msg.height, msg.width), scale=self.scale)
     elif msg.pixelformat == image_t.PIXEL_FORMAT_MJPEG: 
         im = cv2.imdecode(np.asarray(bytearray(msg.data), dtype=np.uint8), -1)
         return im_resize(im, scale=self.scale)
     else: 
         raise RuntimeError('Unknown pixelformat for ImageDecoder')
def convertNSend(channel, data):
    global lc
    msgIn = image_t.decode(data)
    msgOut = images_t.images_t()

    # Put the 1 image into a size-1 images_t message
    msgOut.utime = msgIn.utime
    msgOut.n_images = 1
    msgOut.image_types = [msgOut.LEFT]
    msgOut.images = [msgIn]

    lc.publish("CAMERA", msgOut.encode())

    print '.',
    sys.stdout.flush()
Пример #4
0
    def handle_image_t(self, channel, data):
        msg = image_t.decode(data)

        # conversion black magic...
        if msg.pixelformat == image_t.PIXEL_FORMAT_MJPEG:
            source = cv2.imdecode(np.asarray(bytearray(msg.data),
                                             dtype="uint8"),
                                  flags=cv2.CV_LOAD_IMAGE_COLOR)
            frame = cv.CreateImageHeader((source.shape[1], source.shape[0]),
                                         cv.IPL_DEPTH_8U, 3)
            cv.SetData(frame, source.tostring(),
                       source.dtype.itemsize * 3 * source.shape[1])
            self._frame = cv.CloneImage(frame)
        else:
            print "Don't know how to handle this image type: ", msg.pixelformat

        self.update()
Пример #5
0
    def image_handler(self, channel, data):
        msg = image_t.decode(data)
        im = np.asarray(bytearray(msg.data), dtype=np.uint8).reshape(msg.height, msg.width)
        bf_heatmap = im/255.0;

        # get maximum value in heatmap, push to variable for plotting in local frame
        el,az = np.unravel_index(im.argmax(), im.shape)
        az_el = np.array([[az*np.pi/180.0],[el*np.pi/180.0]])
        cv2.circle(im, (az,el), 5, (0,0,0))
        lRb_val = self.prtObj.lRb()
        self.imu_max = np.dot(lRb_val.T, np.matrix(self.prtObj.bRpe_pt(az_el)))

        self.prtObj.upStateAcoustics_mod(bf_heatmap, im)

        # print 'VICON azimuth elevation transforms:'
        for i in range(0,self.N):
            t = self.prtObj.peRb_pt(np.dot(self.vicon_lRb.T, self.prtObj.particles_l[:,i:i+1]))   # local all the way to plane
            if t[0,0] < 0:
                t[0,0] = t[0,0]+2*np.pi
            # print t[0,0]*180/np.pi, t[1,0]*180/np.pi
            # cv2.circle(im, (int(t[0,0]*180/np.pi),int(t[1,0]*180/np.pi)), 3, (0,0,0))

        cv2.imshow('img', im)
        cv2.waitKey(10)