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+import pyrealsense2 as rs
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+import numpy as np
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+import cv2
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+import supervision as sv
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+from ultralytics import YOLO
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+import time
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+
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+# 啟動 RealSense 相機
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+pipeline = rs.pipeline()
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+config = rs.config()
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+config.enable_stream(rs.stream.depth, 640, 480, rs.format.z16, 30)
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+config.enable_stream(rs.stream.color, 640, 480, rs.format.bgr8, 30)
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+pipeline.start(config)
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+# profile = config.resolve(pipeline)
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+# # Declare sensor object and set options
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+# depth_sensor = profile.get_device().first_depth_sensor()
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+# depth_sensor.set_option(rs.option.visual_preset, 5) # 5 is short range, 3 is low ambient light
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+
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+# 初始化 YOLO 模型
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+model = YOLO('yolov8n-seg.pt')
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+byte_tracker = sv.ByteTrack()
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+
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+align_to = rs.stream.color
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+align = rs.align(align_to)
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+
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+try:
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+ while True:
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+ # 讀取 RealSense 相機影像
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+ frames = pipeline.wait_for_frames()
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+ aligned_frames = align.process(frames)
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+ depth_frame = aligned_frames.get_depth_frame()
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+ color_frame = aligned_frames.get_color_frame()
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+
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+ if not depth_frame or not color_frame:
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+ continue
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+
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+ depth_image = np.asanyarray(depth_frame.get_data())
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+ color_image = np.asanyarray(color_frame.get_data())
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+ depth_colormap = cv2.applyColorMap(cv2.convertScaleAbs(depth_image, alpha=0.03), cv2.COLORMAP_WINTER)
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+
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+ # 進行物體檢測
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+ result = model(color_image)[0]
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+ detections = sv.Detections.from_ultralytics(result)
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+ detections_tracker = byte_tracker.update_with_detections(detections=detections)
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+
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+ polygon_annotator = sv.PolygonAnnotator()
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+ annotated_frame = polygon_annotator.annotate(
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+ scene=color_image.copy(), detections=detections)
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+
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+ mask_annotator = sv.MaskAnnotator()
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+ annotated_frame = mask_annotator.annotate(
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+ scene=annotated_frame, detections=detections
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+ )
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+
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+ labels = [
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+ f"#{tracker_id} {result.names[class_id]} {confidence:.2f}"
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+ for class_id, tracker_id, confidence
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+ in zip(detections_tracker.class_id, detections_tracker.tracker_id, detections_tracker.confidence)
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+ ]
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+
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+ label_annotator = sv.LabelAnnotator()
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+ annotated_frame = label_annotator.annotate(
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+ scene=annotated_frame,
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+ detections=detections_tracker,
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+ labels=labels
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+ )
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+
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+ if detections:
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+ position = sv.Position.CENTER_OF_MASS
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+ xy = detections.get_anchors_coordinates(anchor=position)
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+ #print('postion',xy)
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+ for detection_idx in range(len(detections)):
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+ #print(xy)
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+ center = (int(xy[detection_idx,0]), int(xy[detection_idx,1]))
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+ cv2.circle(annotated_frame, center,radius=3, color=(255,255,0), thickness=-1)
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+ #print(center[0],center[1])
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+
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+ # 在畫面上顯示距離信息和檢測結果
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+ text_depth = "Depth value at ({x},{y}): {:.2f} meters".format(
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+ depth_frame.get_distance(int(xy[detection_idx,0]), int(xy[detection_idx,1])),x = int(xy[detection_idx,0]),y=int(xy[detection_idx,1]))
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+ annotated_frame = cv2.putText(annotated_frame, text_depth, (10, 20), cv2.FONT_HERSHEY_SIMPLEX, 0.8,
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+ (0, 0, 255), 2)
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+ print("距離:",depth_frame.get_distance(int(xy[detection_idx,0]), int(xy[detection_idx,1])))
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+
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+ #annotated_frame = cv2.circle(annotated_frame, (320, 240), 4, (0, 0, 255), -1)
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+
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+ annotated_frame = np.hstack((annotated_frame, depth_colormap))
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+
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+ # 顯示畫面
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+ cv2.imshow('RealSense', annotated_frame)
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+
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+ key = cv2.waitKey(1)
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+ if key & 0xFF == ord('q') or key == 27:
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+ cv2.destroyAllWindows()
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+ break
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+
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+finally:
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+ pipeline.stop()
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