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from collections import deque |
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import numpy as np |
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from .basetrack import TrackState |
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from .byte_tracker import BYTETracker, STrack |
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from .utils import matching |
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from .utils.gmc import GMC |
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from .utils.kalman_filter import KalmanFilterXYWH |
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class BOTrack(STrack): |
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""" |
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An extended version of the STrack class for YOLOv8, adding object tracking features. |
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This class extends the STrack class to include additional functionalities for object tracking, such as feature |
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smoothing, Kalman filter prediction, and reactivation of tracks. |
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Attributes: |
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shared_kalman (KalmanFilterXYWH): A shared Kalman filter for all instances of BOTrack. |
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smooth_feat (np.ndarray): Smoothed feature vector. |
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curr_feat (np.ndarray): Current feature vector. |
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features (deque): A deque to store feature vectors with a maximum length defined by `feat_history`. |
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alpha (float): Smoothing factor for the exponential moving average of features. |
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mean (np.ndarray): The mean state of the Kalman filter. |
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covariance (np.ndarray): The covariance matrix of the Kalman filter. |
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Methods: |
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update_features(feat): Update features vector and smooth it using exponential moving average. |
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predict(): Predicts the mean and covariance using Kalman filter. |
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re_activate(new_track, frame_id, new_id): Reactivates a track with updated features and optionally new ID. |
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update(new_track, frame_id): Update the YOLOv8 instance with new track and frame ID. |
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tlwh: Property that gets the current position in tlwh format `(top left x, top left y, width, height)`. |
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multi_predict(stracks): Predicts the mean and covariance of multiple object tracks using shared Kalman filter. |
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convert_coords(tlwh): Converts tlwh bounding box coordinates to xywh format. |
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tlwh_to_xywh(tlwh): Convert bounding box to xywh format `(center x, center y, width, height)`. |
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Examples: |
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Create a BOTrack instance and update its features |
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>>> bo_track = BOTrack(tlwh=[100, 50, 80, 40], score=0.9, cls=1, feat=np.random.rand(128)) |
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>>> bo_track.predict() |
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>>> new_track = BOTrack(tlwh=[110, 60, 80, 40], score=0.85, cls=1, feat=np.random.rand(128)) |
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>>> bo_track.update(new_track, frame_id=2) |
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""" |
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shared_kalman = KalmanFilterXYWH() |
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def __init__(self, tlwh, score, cls, feat=None, feat_history=50): |
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""" |
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Initialize a BOTrack object with temporal parameters, such as feature history, alpha, and current features. |
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Args: |
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tlwh (np.ndarray): Bounding box coordinates in tlwh format (top left x, top left y, width, height). |
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score (float): Confidence score of the detection. |
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cls (int): Class ID of the detected object. |
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feat (np.ndarray | None): Feature vector associated with the detection. |
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feat_history (int): Maximum length of the feature history deque. |
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Examples: |
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Initialize a BOTrack object with bounding box, score, class ID, and feature vector |
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>>> tlwh = np.array([100, 50, 80, 120]) |
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>>> score = 0.9 |
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>>> cls = 1 |
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>>> feat = np.random.rand(128) |
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>>> bo_track = BOTrack(tlwh, score, cls, feat) |
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""" |
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super().__init__(tlwh, score, cls) |
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self.smooth_feat = None |
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self.curr_feat = None |
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if feat is not None: |
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self.update_features(feat) |
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self.features = deque([], maxlen=feat_history) |
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self.alpha = 0.9 |
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def update_features(self, feat): |
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"""Update the feature vector and apply exponential moving average smoothing.""" |
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feat /= np.linalg.norm(feat) |
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self.curr_feat = feat |
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if self.smooth_feat is None: |
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self.smooth_feat = feat |
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else: |
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self.smooth_feat = self.alpha * self.smooth_feat + (1 - self.alpha) * feat |
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self.features.append(feat) |
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self.smooth_feat /= np.linalg.norm(self.smooth_feat) |
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def predict(self): |
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"""Predicts the object's future state using the Kalman filter to update its mean and covariance.""" |
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mean_state = self.mean.copy() |
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if self.state != TrackState.Tracked: |
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mean_state[6] = 0 |
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mean_state[7] = 0 |
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self.mean, self.covariance = self.kalman_filter.predict(mean_state, self.covariance) |
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def re_activate(self, new_track, frame_id, new_id=False): |
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"""Reactivates a track with updated features and optionally assigns a new ID.""" |
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if new_track.curr_feat is not None: |
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self.update_features(new_track.curr_feat) |
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super().re_activate(new_track, frame_id, new_id) |
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def update(self, new_track, frame_id): |
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"""Updates the YOLOv8 instance with new track information and the current frame ID.""" |
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if new_track.curr_feat is not None: |
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self.update_features(new_track.curr_feat) |
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super().update(new_track, frame_id) |
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@property |
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def tlwh(self): |
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"""Returns the current bounding box position in `(top left x, top left y, width, height)` format.""" |
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if self.mean is None: |
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return self._tlwh.copy() |
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ret = self.mean[:4].copy() |
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ret[:2] -= ret[2:] / 2 |
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return ret |
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@staticmethod |
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def multi_predict(stracks): |
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"""Predicts the mean and covariance for multiple object tracks using a shared Kalman filter.""" |
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if len(stracks) <= 0: |
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return |
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multi_mean = np.asarray([st.mean.copy() for st in stracks]) |
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multi_covariance = np.asarray([st.covariance for st in stracks]) |
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for i, st in enumerate(stracks): |
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if st.state != TrackState.Tracked: |
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multi_mean[i][6] = 0 |
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multi_mean[i][7] = 0 |
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multi_mean, multi_covariance = BOTrack.shared_kalman.multi_predict(multi_mean, multi_covariance) |
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for i, (mean, cov) in enumerate(zip(multi_mean, multi_covariance)): |
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stracks[i].mean = mean |
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stracks[i].covariance = cov |
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def convert_coords(self, tlwh): |
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"""Converts tlwh bounding box coordinates to xywh format.""" |
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return self.tlwh_to_xywh(tlwh) |
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@staticmethod |
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def tlwh_to_xywh(tlwh): |
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"""Convert bounding box from tlwh (top-left-width-height) to xywh (center-x-center-y-width-height) format.""" |
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ret = np.asarray(tlwh).copy() |
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ret[:2] += ret[2:] / 2 |
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return ret |
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class BOTSORT(BYTETracker): |
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""" |
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An extended version of the BYTETracker class for YOLOv8, designed for object tracking with ReID and GMC algorithm. |
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Attributes: |
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proximity_thresh (float): Threshold for spatial proximity (IoU) between tracks and detections. |
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appearance_thresh (float): Threshold for appearance similarity (ReID embeddings) between tracks and detections. |
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encoder (Any): Object to handle ReID embeddings, set to None if ReID is not enabled. |
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gmc (GMC): An instance of the GMC algorithm for data association. |
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args (Any): Parsed command-line arguments containing tracking parameters. |
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Methods: |
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get_kalmanfilter(): Returns an instance of KalmanFilterXYWH for object tracking. |
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init_track(dets, scores, cls, img): Initialize track with detections, scores, and classes. |
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get_dists(tracks, detections): Get distances between tracks and detections using IoU and (optionally) ReID. |
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multi_predict(tracks): Predict and track multiple objects with YOLOv8 model. |
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Examples: |
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Initialize BOTSORT and process detections |
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>>> bot_sort = BOTSORT(args, frame_rate=30) |
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>>> bot_sort.init_track(dets, scores, cls, img) |
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>>> bot_sort.multi_predict(tracks) |
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Note: |
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The class is designed to work with the YOLOv8 object detection model and supports ReID only if enabled via args. |
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""" |
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def __init__(self, args, frame_rate=30): |
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""" |
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Initialize YOLOv8 object with ReID module and GMC algorithm. |
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Args: |
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args (object): Parsed command-line arguments containing tracking parameters. |
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frame_rate (int): Frame rate of the video being processed. |
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Examples: |
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Initialize BOTSORT with command-line arguments and a specified frame rate: |
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>>> args = parse_args() |
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>>> bot_sort = BOTSORT(args, frame_rate=30) |
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""" |
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super().__init__(args, frame_rate) |
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self.proximity_thresh = args.proximity_thresh |
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self.appearance_thresh = args.appearance_thresh |
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if args.with_reid: |
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self.encoder = None |
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self.gmc = GMC(method=args.gmc_method) |
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def get_kalmanfilter(self): |
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"""Returns an instance of KalmanFilterXYWH for predicting and updating object states in the tracking process.""" |
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return KalmanFilterXYWH() |
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def init_track(self, dets, scores, cls, img=None): |
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"""Initialize object tracks using detection bounding boxes, scores, class labels, and optional ReID features.""" |
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if len(dets) == 0: |
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return [] |
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if self.args.with_reid and self.encoder is not None: |
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features_keep = self.encoder.inference(img, dets) |
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return [BOTrack(xyxy, s, c, f) for (xyxy, s, c, f) in zip(dets, scores, cls, features_keep)] |
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else: |
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return [BOTrack(xyxy, s, c) for (xyxy, s, c) in zip(dets, scores, cls)] |
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def get_dists(self, tracks, detections): |
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"""Calculates distances between tracks and detections using IoU and optionally ReID embeddings.""" |
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dists = matching.iou_distance(tracks, detections) |
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dists_mask = dists > self.proximity_thresh |
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if self.args.fuse_score: |
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dists = matching.fuse_score(dists, detections) |
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if self.args.with_reid and self.encoder is not None: |
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emb_dists = matching.embedding_distance(tracks, detections) / 2.0 |
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emb_dists[emb_dists > self.appearance_thresh] = 1.0 |
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emb_dists[dists_mask] = 1.0 |
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dists = np.minimum(dists, emb_dists) |
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return dists |
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def multi_predict(self, tracks): |
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"""Predicts the mean and covariance of multiple object tracks using a shared Kalman filter.""" |
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BOTrack.multi_predict(tracks) |
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def reset(self): |
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"""Resets the BOTSORT tracker to its initial state, clearing all tracked objects and internal states.""" |
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super().reset() |
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self.gmc.reset_params() |
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