mirror of
https://github.com/blakeblackshear/frigate.git
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d51197eaa2
* use a different method for blur and contrast to reduce CPU * blur with radius instead * use faster interpolation for motion * improve contrast based on averages * increase default threshold to 30 * ensure mask is applied after contrast improvement * update opencv * update benchmark script
191 lines
7.0 KiB
Python
191 lines
7.0 KiB
Python
import cv2
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import imutils
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import numpy as np
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from scipy.ndimage import gaussian_filter
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from frigate.config import MotionConfig
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from frigate.motion import MotionDetector
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class ImprovedMotionDetector(MotionDetector):
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def __init__(
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self,
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frame_shape,
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config: MotionConfig,
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fps: int,
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improve_contrast,
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threshold,
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contour_area,
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name="improved",
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blur_radius=1,
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interpolation=cv2.INTER_NEAREST,
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contrast_frame_history=50,
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):
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self.name = name
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self.config = config
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self.frame_shape = frame_shape
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self.resize_factor = frame_shape[0] / config.frame_height
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self.motion_frame_size = (
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config.frame_height,
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config.frame_height * frame_shape[1] // frame_shape[0],
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)
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self.avg_frame = np.zeros(self.motion_frame_size, np.float32)
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self.motion_frame_count = 0
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self.frame_counter = 0
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resized_mask = cv2.resize(
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config.mask,
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dsize=(self.motion_frame_size[1], self.motion_frame_size[0]),
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interpolation=cv2.INTER_AREA,
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)
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self.mask = np.where(resized_mask == [0])
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self.save_images = False
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self.calibrating = True
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self.improve_contrast = improve_contrast
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self.threshold = threshold
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self.contour_area = contour_area
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self.blur_radius = blur_radius
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self.interpolation = interpolation
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self.contrast_values = np.zeros((contrast_frame_history, 2), np.uint8)
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self.contrast_values[:, 1:2] = 255
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self.contrast_values_index = 0
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def detect(self, frame):
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motion_boxes = []
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gray = frame[0 : self.frame_shape[0], 0 : self.frame_shape[1]]
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# resize frame
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resized_frame = cv2.resize(
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gray,
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dsize=(self.motion_frame_size[1], self.motion_frame_size[0]),
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interpolation=self.interpolation,
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)
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if self.save_images:
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resized_saved = resized_frame.copy()
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# Improve contrast
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if self.improve_contrast.value:
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# TODO tracking moving average of min/max to avoid sudden contrast changes
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minval = np.percentile(resized_frame, 4).astype(np.uint8)
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maxval = np.percentile(resized_frame, 96).astype(np.uint8)
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# skip contrast calcs if the image is a single color
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if minval < maxval:
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# keep track of the last 50 contrast values
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self.contrast_values[self.contrast_values_index] = [minval, maxval]
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self.contrast_values_index += 1
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if self.contrast_values_index == len(self.contrast_values):
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self.contrast_values_index = 0
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avg_min, avg_max = np.mean(self.contrast_values, axis=0)
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resized_frame = np.clip(resized_frame, avg_min, avg_max)
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resized_frame = (
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((resized_frame - avg_min) / (avg_max - avg_min)) * 255
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).astype(np.uint8)
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if self.save_images:
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contrasted_saved = resized_frame.copy()
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# mask frame
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# this has to come after contrast improvement
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resized_frame[self.mask] = [255]
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resized_frame = gaussian_filter(resized_frame, sigma=1, radius=self.blur_radius)
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if self.save_images:
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blurred_saved = resized_frame.copy()
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if self.save_images or self.calibrating:
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self.frame_counter += 1
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# compare to average
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frameDelta = cv2.absdiff(resized_frame, cv2.convertScaleAbs(self.avg_frame))
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# compute the threshold image for the current frame
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thresh = cv2.threshold(
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frameDelta, self.threshold.value, 255, cv2.THRESH_BINARY
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)[1]
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# dilate the thresholded image to fill in holes, then find contours
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# on thresholded image
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thresh_dilated = cv2.dilate(thresh, None, iterations=1)
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cnts = cv2.findContours(
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thresh_dilated, cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE
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)
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cnts = imutils.grab_contours(cnts)
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# loop over the contours
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total_contour_area = 0
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for c in cnts:
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# if the contour is big enough, count it as motion
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contour_area = cv2.contourArea(c)
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total_contour_area += contour_area
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if contour_area > self.contour_area.value:
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x, y, w, h = cv2.boundingRect(c)
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motion_boxes.append(
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(
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int(x * self.resize_factor),
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int(y * self.resize_factor),
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int((x + w) * self.resize_factor),
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int((y + h) * self.resize_factor),
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)
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)
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pct_motion = total_contour_area / (
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self.motion_frame_size[0] * self.motion_frame_size[1]
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)
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# once the motion drops to less than 1% for the first time, assume its calibrated
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if pct_motion < 0.01:
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self.calibrating = False
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# if calibrating or the motion contours are > 80% of the image area (lightning, ir, ptz) recalibrate
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if self.calibrating or pct_motion > self.config.lightning_threshold:
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motion_boxes = []
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self.calibrating = True
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if self.save_images:
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thresh_dilated = cv2.cvtColor(thresh_dilated, cv2.COLOR_GRAY2BGR)
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for b in motion_boxes:
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cv2.rectangle(
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thresh_dilated,
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(int(b[0] / self.resize_factor), int(b[1] / self.resize_factor)),
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(int(b[2] / self.resize_factor), int(b[3] / self.resize_factor)),
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(0, 0, 255),
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2,
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)
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frames = [
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cv2.cvtColor(resized_saved, cv2.COLOR_GRAY2BGR),
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cv2.cvtColor(contrasted_saved, cv2.COLOR_GRAY2BGR),
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cv2.cvtColor(blurred_saved, cv2.COLOR_GRAY2BGR),
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cv2.cvtColor(frameDelta, cv2.COLOR_GRAY2BGR),
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cv2.cvtColor(thresh, cv2.COLOR_GRAY2BGR),
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thresh_dilated,
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]
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cv2.imwrite(
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f"debug/frames/{self.name}-{self.frame_counter}.jpg",
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cv2.hconcat(frames)
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if self.frame_shape[0] > self.frame_shape[1]
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else cv2.vconcat(frames),
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)
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if len(motion_boxes) > 0:
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self.motion_frame_count += 1
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if self.motion_frame_count >= 10:
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# only average in the current frame if the difference persists for a bit
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cv2.accumulateWeighted(
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resized_frame,
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self.avg_frame,
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0.2 if self.calibrating else self.config.frame_alpha,
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)
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else:
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# when no motion, just keep averaging the frames together
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cv2.accumulateWeighted(
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resized_frame,
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self.avg_frame,
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0.2 if self.calibrating else self.config.frame_alpha,
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)
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self.motion_frame_count = 0
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return motion_boxes
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