Distance Calculation using Ultralytics YOLO11#
What is Distance Calculation?#
Measuring the gap between two objects is known as distance calculation within a specified space. In the case of Ultralytics YOLO11, the bounding box centroid is employed to calculate the distance for bounding boxes highlighted by the user.
Watch: Distance Calculation using Ultralytics YOLO11
Visuals#
Distance Calculation using Ultralytics YOLO11 |
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Advantages of Distance Calculation?#
Localization Precision: Enhances accurate spatial positioning in computer vision tasks.
Size Estimation: Allows estimation of object size for better contextual understanding.
???+ tip “Distance Calculation”
- Click on any two bounding boxes with Left Mouse click for distance calculation
!!! example “Distance Calculation using YOLO11 Example”
=== "Video Stream"
```python
import cv2
from ultralytics import solutions
cap = cv2.VideoCapture("Path/to/video/file.mp4")
assert cap.isOpened(), "Error reading video file"
w, h, fps = (int(cap.get(x)) for x in (cv2.CAP_PROP_FRAME_WIDTH, cv2.CAP_PROP_FRAME_HEIGHT, cv2.CAP_PROP_FPS))
# Video writer
video_writer = cv2.VideoWriter("distance_calculation.avi", cv2.VideoWriter_fourcc(*"mp4v"), fps, (w, h))
# Init distance-calculation obj
distance = solutions.DistanceCalculation(model="yolo11n.pt", show=True)
while cap.isOpened():
success, im0 = cap.read()
if not success:
print("Video frame is empty or video processing has been successfully completed.")
break
im0 = distance.calculate(im0)
video_writer.write(im0)
cap.release()
video_writer.release()
cv2.destroyAllWindows()
```
???+ note
- Mouse Right Click will delete all drawn points
- Mouse Left Click can be used to draw points
???+ warning “Distance is Estimate”
Distance will be an estimate and may not be fully accurate, as it is calculated using 2-dimensional data, which lacks information about the object's depth.
Arguments DistanceCalculation()#
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Description |
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Path to Ultralytics YOLO Model File |
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Line thickness for bounding boxes. |
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Flag to control whether to display the video stream. |
Arguments model.track#
{% include “macros/track-args.md” %}
FAQ#
How do I calculate distances between objects using Ultralytics YOLO11?#
To calculate distances between objects using Ultralytics YOLO11, you need to identify the bounding box centroids of the detected objects. This process involves initializing the DistanceCalculation class from Ultralytics’ solutions module and using the model’s tracking outputs to calculate the distances. You can refer to the implementation in the distance calculation example.
What are the advantages of using distance calculation with Ultralytics YOLO11?#
Using distance calculation with Ultralytics YOLO11 offers several advantages:
Localization Precision: Provides accurate spatial positioning for objects.
Size Estimation: Helps estimate physical sizes, contributing to better contextual understanding.
Scene Understanding: Enhances 3D scene comprehension, aiding improved decision-making in applications like autonomous driving and surveillance.
Can I perform distance calculation in real-time video streams with Ultralytics YOLO11?#
Yes, you can perform distance calculation in real-time video streams with Ultralytics YOLO11. The process involves capturing video frames using OpenCV, running YOLO11 object detection, and using the DistanceCalculation class to calculate distances between objects in successive frames. For a detailed implementation, see the video stream example.
How do I delete points drawn during distance calculation using Ultralytics YOLO11?#
To delete points drawn during distance calculation with Ultralytics YOLO11, you can use a right mouse click. This action will clear all the points you have drawn. For more details, refer to the note section under the distance calculation example.
What are the key arguments for initializing the DistanceCalculation class in Ultralytics YOLO11?#
The key arguments for initializing the DistanceCalculation class in Ultralytics YOLO11 include:
model: Model file path.show: Flag to indicate if the video stream should be displayed.line_width: Thickness of bounding box and the lines drawn on the image.
For an exhaustive list and default values, see the arguments of DistanceCalculation.