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198 lines
6.3 KiB
198 lines
6.3 KiB
#!/usr/bin/env python |
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''' |
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MOSSE tracking sample |
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This sample implements correlation-based tracking approach, described in [1]. |
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Usage: |
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mosse.py [--pause] [<video source>] |
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--pause - Start with playback paused at the first video frame. |
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Useful for tracking target selection. |
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Draw rectangles around objects with a mouse to track them. |
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Keys: |
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SPACE - pause video |
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c - clear targets |
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[1] David S. Bolme et al. "Visual Object Tracking using Adaptive Correlation Filters" |
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http://www.cs.colostate.edu/~draper/papers/bolme_cvpr10.pdf |
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''' |
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# Python 2/3 compatibility |
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from __future__ import print_function |
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import sys |
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PY3 = sys.version_info[0] == 3 |
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if PY3: |
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xrange = range |
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import numpy as np |
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import cv2 |
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from common import draw_str, RectSelector |
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import video |
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def rnd_warp(a): |
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h, w = a.shape[:2] |
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T = np.zeros((2, 3)) |
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coef = 0.2 |
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ang = (np.random.rand()-0.5)*coef |
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c, s = np.cos(ang), np.sin(ang) |
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T[:2, :2] = [[c,-s], [s, c]] |
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T[:2, :2] += (np.random.rand(2, 2) - 0.5)*coef |
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c = (w/2, h/2) |
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T[:,2] = c - np.dot(T[:2, :2], c) |
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return cv2.warpAffine(a, T, (w, h), borderMode = cv2.BORDER_REFLECT) |
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def divSpec(A, B): |
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Ar, Ai = A[...,0], A[...,1] |
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Br, Bi = B[...,0], B[...,1] |
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C = (Ar+1j*Ai)/(Br+1j*Bi) |
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C = np.dstack([np.real(C), np.imag(C)]).copy() |
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return C |
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eps = 1e-5 |
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class MOSSE: |
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def __init__(self, frame, rect): |
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x1, y1, x2, y2 = rect |
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w, h = map(cv2.getOptimalDFTSize, [x2-x1, y2-y1]) |
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x1, y1 = (x1+x2-w)//2, (y1+y2-h)//2 |
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self.pos = x, y = x1+0.5*(w-1), y1+0.5*(h-1) |
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self.size = w, h |
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img = cv2.getRectSubPix(frame, (w, h), (x, y)) |
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self.win = cv2.createHanningWindow((w, h), cv2.CV_32F) |
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g = np.zeros((h, w), np.float32) |
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g[h//2, w//2] = 1 |
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g = cv2.GaussianBlur(g, (-1, -1), 2.0) |
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g /= g.max() |
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self.G = cv2.dft(g, flags=cv2.DFT_COMPLEX_OUTPUT) |
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self.H1 = np.zeros_like(self.G) |
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self.H2 = np.zeros_like(self.G) |
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for i in xrange(128): |
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a = self.preprocess(rnd_warp(img)) |
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A = cv2.dft(a, flags=cv2.DFT_COMPLEX_OUTPUT) |
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self.H1 += cv2.mulSpectrums(self.G, A, 0, conjB=True) |
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self.H2 += cv2.mulSpectrums( A, A, 0, conjB=True) |
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self.update_kernel() |
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self.update(frame) |
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def update(self, frame, rate = 0.125): |
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(x, y), (w, h) = self.pos, self.size |
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self.last_img = img = cv2.getRectSubPix(frame, (w, h), (x, y)) |
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img = self.preprocess(img) |
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self.last_resp, (dx, dy), self.psr = self.correlate(img) |
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self.good = self.psr > 8.0 |
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if not self.good: |
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return |
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self.pos = x+dx, y+dy |
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self.last_img = img = cv2.getRectSubPix(frame, (w, h), self.pos) |
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img = self.preprocess(img) |
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A = cv2.dft(img, flags=cv2.DFT_COMPLEX_OUTPUT) |
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H1 = cv2.mulSpectrums(self.G, A, 0, conjB=True) |
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H2 = cv2.mulSpectrums( A, A, 0, conjB=True) |
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self.H1 = self.H1 * (1.0-rate) + H1 * rate |
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self.H2 = self.H2 * (1.0-rate) + H2 * rate |
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self.update_kernel() |
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@property |
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def state_vis(self): |
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f = cv2.idft(self.H, flags=cv2.DFT_SCALE | cv2.DFT_REAL_OUTPUT ) |
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h, w = f.shape |
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f = np.roll(f, -h//2, 0) |
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f = np.roll(f, -w//2, 1) |
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kernel = np.uint8( (f-f.min()) / f.ptp()*255 ) |
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resp = self.last_resp |
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resp = np.uint8(np.clip(resp/resp.max(), 0, 1)*255) |
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vis = np.hstack([self.last_img, kernel, resp]) |
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return vis |
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def draw_state(self, vis): |
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(x, y), (w, h) = self.pos, self.size |
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x1, y1, x2, y2 = int(x-0.5*w), int(y-0.5*h), int(x+0.5*w), int(y+0.5*h) |
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cv2.rectangle(vis, (x1, y1), (x2, y2), (0, 0, 255)) |
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if self.good: |
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cv2.circle(vis, (int(x), int(y)), 2, (0, 0, 255), -1) |
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else: |
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cv2.line(vis, (x1, y1), (x2, y2), (0, 0, 255)) |
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cv2.line(vis, (x2, y1), (x1, y2), (0, 0, 255)) |
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draw_str(vis, (x1, y2+16), 'PSR: %.2f' % self.psr) |
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def preprocess(self, img): |
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img = np.log(np.float32(img)+1.0) |
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img = (img-img.mean()) / (img.std()+eps) |
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return img*self.win |
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def correlate(self, img): |
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C = cv2.mulSpectrums(cv2.dft(img, flags=cv2.DFT_COMPLEX_OUTPUT), self.H, 0, conjB=True) |
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resp = cv2.idft(C, flags=cv2.DFT_SCALE | cv2.DFT_REAL_OUTPUT) |
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h, w = resp.shape |
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_, mval, _, (mx, my) = cv2.minMaxLoc(resp) |
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side_resp = resp.copy() |
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cv2.rectangle(side_resp, (mx-5, my-5), (mx+5, my+5), 0, -1) |
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smean, sstd = side_resp.mean(), side_resp.std() |
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psr = (mval-smean) / (sstd+eps) |
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return resp, (mx-w//2, my-h//2), psr |
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def update_kernel(self): |
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self.H = divSpec(self.H1, self.H2) |
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self.H[...,1] *= -1 |
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class App: |
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def __init__(self, video_src, paused = False): |
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self.cap = video.create_capture(video_src) |
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_, self.frame = self.cap.read() |
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cv2.imshow('frame', self.frame) |
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self.rect_sel = RectSelector('frame', self.onrect) |
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self.trackers = [] |
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self.paused = paused |
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def onrect(self, rect): |
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frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY) |
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tracker = MOSSE(frame_gray, rect) |
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self.trackers.append(tracker) |
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def run(self): |
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while True: |
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if not self.paused: |
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ret, self.frame = self.cap.read() |
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if not ret: |
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break |
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frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY) |
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for tracker in self.trackers: |
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tracker.update(frame_gray) |
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vis = self.frame.copy() |
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for tracker in self.trackers: |
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tracker.draw_state(vis) |
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if len(self.trackers) > 0: |
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cv2.imshow('tracker state', self.trackers[-1].state_vis) |
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self.rect_sel.draw(vis) |
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cv2.imshow('frame', vis) |
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ch = cv2.waitKey(10) |
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if ch == 27: |
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break |
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if ch == ord(' '): |
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self.paused = not self.paused |
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if ch == ord('c'): |
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self.trackers = [] |
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if __name__ == '__main__': |
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print (__doc__) |
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import sys, getopt |
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opts, args = getopt.getopt(sys.argv[1:], '', ['pause']) |
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opts = dict(opts) |
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try: |
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video_src = args[0] |
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except: |
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video_src = '0' |
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App(video_src, paused = '--pause' in opts).run()
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