blakeblackshear.frigate/frigate/motion/improved_motion.py

import cv2
import imutils
import numpy as np

from frigate.config import MotionConfig
from frigate.motion import MotionDetector


class ImprovedMotionDetector(MotionDetector):
    def __init__(
        self,
        frame_shape,
        config: MotionConfig,
        fps: int,
        improve_contrast,
        threshold,
        contour_area,
    ):
        self.config = config
        self.frame_shape = frame_shape
        self.resize_factor = frame_shape[0] / config.frame_height
        self.motion_frame_size = (
            config.frame_height,
            config.frame_height * frame_shape[1] // frame_shape[0],
        )
        self.avg_frame = np.zeros(self.motion_frame_size, np.float32)
        self.avg_delta = np.zeros(self.motion_frame_size, np.float32)
        self.motion_frame_count = 0
        self.frame_counter = 0
        resized_mask = cv2.resize(
            config.mask,
            dsize=(self.motion_frame_size[1], self.motion_frame_size[0]),
            interpolation=cv2.INTER_LINEAR,
        )
        self.mask = np.where(resized_mask == [0])
        self.save_images = False
        self.calibrating = True
        self.improve_contrast = improve_contrast
        self.threshold = threshold
        self.contour_area = contour_area
        self.clahe = cv2.createCLAHE(clipLimit=2.0, tileGridSize=(8, 8))

    def detect(self, frame):
        motion_boxes = []

        gray = frame[0 : self.frame_shape[0], 0 : self.frame_shape[1]]

        # resize frame
        resized_frame = cv2.resize(
            gray,
            dsize=(self.motion_frame_size[1], self.motion_frame_size[0]),
            interpolation=cv2.INTER_LINEAR,
        )

        resized_frame = cv2.GaussianBlur(resized_frame, (3, 3), cv2.BORDER_DEFAULT)

        # Improve contrast
        if self.improve_contrast.value:
            resized_frame = self.clahe.apply(resized_frame)

        # mask frame
        resized_frame[self.mask] = [255]

        if self.save_images or self.calibrating:
            self.frame_counter += 1
        # compare to average
        frameDelta = cv2.absdiff(resized_frame, cv2.convertScaleAbs(self.avg_frame))

        # compute the threshold image for the current frame
        thresh = cv2.threshold(
            frameDelta, self.threshold.value, 255, cv2.THRESH_BINARY
        )[1]

        # dilate the thresholded image to fill in holes, then find contours
        # on thresholded image
        thresh_dilated = cv2.dilate(thresh, None, iterations=1)
        cnts = cv2.findContours(
            thresh_dilated, cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE
        )
        cnts = imutils.grab_contours(cnts)

        # loop over the contours
        total_contour_area = 0
        for c in cnts:
            # if the contour is big enough, count it as motion
            contour_area = cv2.contourArea(c)
            total_contour_area += contour_area
            if contour_area > self.contour_area.value:
                x, y, w, h = cv2.boundingRect(c)
                motion_boxes.append(
                    (
                        int(x * self.resize_factor),
                        int(y * self.resize_factor),
                        int((x + w) * self.resize_factor),
                        int((y + h) * self.resize_factor),
                    )
                )

        pct_motion = total_contour_area / (
            self.motion_frame_size[0] * self.motion_frame_size[1]
        )

        # once the motion drops to less than 1% for the first time, assume its calibrated
        if pct_motion < 0.01:
            self.calibrating = False

        # if calibrating or the motion contours are > 80% of the image area (lightning, ir, ptz) recalibrate
        if self.calibrating or pct_motion > self.config.lightning_threshold:
            motion_boxes = []
            self.calibrating = True

        if self.save_images:
            thresh_dilated = cv2.cvtColor(thresh_dilated, cv2.COLOR_GRAY2BGR)
            for b in motion_boxes:
                cv2.rectangle(
                    thresh_dilated,
                    (int(b[0] / self.resize_factor), int(b[1] / self.resize_factor)),
                    (int(b[2] / self.resize_factor), int(b[3] / self.resize_factor)),
                    (0, 0, 255),
                    2,
                )
            cv2.imwrite(
                f"debug/frames/improved-{self.frame_counter}.jpg", thresh_dilated
            )

        if len(motion_boxes) > 0:
            self.motion_frame_count += 1
            if self.motion_frame_count >= 10:
                # only average in the current frame if the difference persists for a bit
                cv2.accumulateWeighted(
                    resized_frame,
                    self.avg_frame,
                    0.2 if self.calibrating else self.config.frame_alpha,
                )
        else:
            # when no motion, just keep averaging the frames together
            cv2.accumulateWeighted(
                resized_frame,
                self.avg_frame,
                0.2 if self.calibrating else self.config.frame_alpha,
            )
            self.motion_frame_count = 0

        return motion_boxes
Improve motion detection and region selection (#6741) * refactor existing motion detector * implement and use cnt bgsub * pass fps to motion detector * create a simplified motion detector * lightning detection * update default motion config * lint imports * use estimated boxes for regions * use improved motion detector * update test * use a different strategy for clustering motion and object boxes * increase alpha during calibration * simplify object consolidation * add some reasonable constraints to the estimated box * adjust cluster boundary to 10% * refactor * add disabled debug code * fix variable scope 2023-06-11 15:45:11 +02:00			`import cv2`
			`import imutils`
			`import numpy as np`

			`from frigate.config import MotionConfig`
			`from frigate.motion import MotionDetector`


			`class ImprovedMotionDetector(MotionDetector):`
			`def __init__(`
			`self,`
			`frame_shape,`
			`config: MotionConfig,`
			`fps: int,`
			`improve_contrast,`
			`threshold,`
			`contour_area,`
			`):`
			`self.config = config`
			`self.frame_shape = frame_shape`
			`self.resize_factor = frame_shape[0] / config.frame_height`
			`self.motion_frame_size = (`
			`config.frame_height,`
			`config.frame_height * frame_shape[1] // frame_shape[0],`
			`)`
			`self.avg_frame = np.zeros(self.motion_frame_size, np.float32)`
			`self.avg_delta = np.zeros(self.motion_frame_size, np.float32)`
			`self.motion_frame_count = 0`
			`self.frame_counter = 0`
			`resized_mask = cv2.resize(`
			`config.mask,`
			`dsize=(self.motion_frame_size[1], self.motion_frame_size[0]),`
			`interpolation=cv2.INTER_LINEAR,`
			`)`
			`self.mask = np.where(resized_mask == [0])`
			`self.save_images = False`
			`self.calibrating = True`
			`self.improve_contrast = improve_contrast`
			`self.threshold = threshold`
			`self.contour_area = contour_area`
use clahe for contrast improvement (#6835) * use clahe for contrast improvement * update tests 2023-06-18 18:56:41 +02:00			`self.clahe = cv2.createCLAHE(clipLimit=2.0, tileGridSize=(8, 8))`
Improve motion detection and region selection (#6741) * refactor existing motion detector * implement and use cnt bgsub * pass fps to motion detector * create a simplified motion detector * lightning detection * update default motion config * lint imports * use estimated boxes for regions * use improved motion detector * update test * use a different strategy for clustering motion and object boxes * increase alpha during calibration * simplify object consolidation * add some reasonable constraints to the estimated box * adjust cluster boundary to 10% * refactor * add disabled debug code * fix variable scope 2023-06-11 15:45:11 +02:00
			`def detect(self, frame):`
			`motion_boxes = []`

			`gray = frame[0 : self.frame_shape[0], 0 : self.frame_shape[1]]`

			`# resize frame`
			`resized_frame = cv2.resize(`
			`gray,`
			`dsize=(self.motion_frame_size[1], self.motion_frame_size[0]),`
			`interpolation=cv2.INTER_LINEAR,`
			`)`

			`resized_frame = cv2.GaussianBlur(resized_frame, (3, 3), cv2.BORDER_DEFAULT)`

			`# Improve contrast`
			`if self.improve_contrast.value:`
use clahe for contrast improvement (#6835) * use clahe for contrast improvement * update tests 2023-06-18 18:56:41 +02:00			`resized_frame = self.clahe.apply(resized_frame)`
Improve motion detection and region selection (#6741) * refactor existing motion detector * implement and use cnt bgsub * pass fps to motion detector * create a simplified motion detector * lightning detection * update default motion config * lint imports * use estimated boxes for regions * use improved motion detector * update test * use a different strategy for clustering motion and object boxes * increase alpha during calibration * simplify object consolidation * add some reasonable constraints to the estimated box * adjust cluster boundary to 10% * refactor * add disabled debug code * fix variable scope 2023-06-11 15:45:11 +02:00
			`# mask frame`
			`resized_frame[self.mask] = [255]`

			`if self.save_images or self.calibrating:`
			`self.frame_counter += 1`
			`# compare to average`
			`frameDelta = cv2.absdiff(resized_frame, cv2.convertScaleAbs(self.avg_frame))`

			`# compute the threshold image for the current frame`
			`thresh = cv2.threshold(`
			`frameDelta, self.threshold.value, 255, cv2.THRESH_BINARY`
			`)[1]`

			`# dilate the thresholded image to fill in holes, then find contours`
			`# on thresholded image`
			`thresh_dilated = cv2.dilate(thresh, None, iterations=1)`
			`cnts = cv2.findContours(`
			`thresh_dilated, cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE`
			`)`
			`cnts = imutils.grab_contours(cnts)`

			`# loop over the contours`
			`total_contour_area = 0`
			`for c in cnts:`
			`# if the contour is big enough, count it as motion`
			`contour_area = cv2.contourArea(c)`
			`total_contour_area += contour_area`
			`if contour_area > self.contour_area.value:`
			`x, y, w, h = cv2.boundingRect(c)`
			`motion_boxes.append(`
			`(`
			`int(x * self.resize_factor),`
			`int(y * self.resize_factor),`
			`int((x + w) * self.resize_factor),`
			`int((y + h) * self.resize_factor),`
			`)`
			`)`

			`pct_motion = total_contour_area / (`
			`self.motion_frame_size[0] * self.motion_frame_size[1]`
			`)`

			`# once the motion drops to less than 1% for the first time, assume its calibrated`
			`if pct_motion < 0.01:`
			`self.calibrating = False`

			`# if calibrating or the motion contours are > 80% of the image area (lightning, ir, ptz) recalibrate`
			`if self.calibrating or pct_motion > self.config.lightning_threshold:`
			`motion_boxes = []`
			`self.calibrating = True`

			`if self.save_images:`
			`thresh_dilated = cv2.cvtColor(thresh_dilated, cv2.COLOR_GRAY2BGR)`
			`for b in motion_boxes:`
			`cv2.rectangle(`
			`thresh_dilated,`
			`(int(b[0] / self.resize_factor), int(b[1] / self.resize_factor)),`
			`(int(b[2] / self.resize_factor), int(b[3] / self.resize_factor)),`
			`(0, 0, 255),`
			`2,`
			`)`
			`cv2.imwrite(`
			`f"debug/frames/improved-{self.frame_counter}.jpg", thresh_dilated`
			`)`

			`if len(motion_boxes) > 0:`
			`self.motion_frame_count += 1`
			`if self.motion_frame_count >= 10:`
			`# only average in the current frame if the difference persists for a bit`
			`cv2.accumulateWeighted(`
			`resized_frame,`
			`self.avg_frame,`
			`0.2 if self.calibrating else self.config.frame_alpha,`
			`)`
			`else:`
			`# when no motion, just keep averaging the frames together`
			`cv2.accumulateWeighted(`
			`resized_frame,`
			`self.avg_frame,`
			`0.2 if self.calibrating else self.config.frame_alpha,`
			`)`
			`self.motion_frame_count = 0`

			`return motion_boxes`