yolo/README.md

# Object Detection with Yolo

*author: shiyu22*


<br />


### Description

**Object Detection** is a computer vision technique that locates and identifies people, items, or other objects in an image. Object detection has applications in many areas of computer vision, including image retrieval, image annotation, vehicle counting, object tracking, etc.

This operator uses [PyTorch.yolov5](https://pytorch.org/hub/ultralytics_yolov5/) to detect the object.


<br />


### Code Example


Writing the pipeline in the simplified way

```Python
import towhee

towhee.glob('./test.png') \
	.image_decode() \
	.object_detection.yolov5() \
	.show()
```

<img src="./results1.png" alt="results1" height="40px"/>


<br />


## Factory Constructor

Create the operator via the following factory method

***object_detection.yolov5()***


<br />


### Interface

The operator takes an image as input. It first detects the objects appeared in the image, and gives the bounding box of each object.

**Parameters:**

	**img**: numpy.ndarray

	Image data in ndarray format.


**Return**: List[List[(int, int, int, int)], ...], List[str], List[float]

The return value is a tuple of (boxes, classes, scores). The *boxes* is a list of bounding boxes. Each bounding box is represented by the top-left and the bottom right points, i.e. (x1, y1, x2, y2). The *classes* is a list of prediction labels. The *scores* is a list of the confidence scores.
Add yolo Signed-off-by: shiyu22 <shiyu.chen@zilliz.com> 2 years ago			`# Object Detection with Yolo`

			`author: shiyu22`



			`<br />`



			`### Description`

			`Object Detection is a computer vision technique that locates and identifies people, items, or other objects in an image. Object detection has applications in many areas of computer vision, including image retrieval, image annotation, vehicle counting, object tracking, etc.`

			`This operator uses [PyTorch.yolov5](https://pytorch.org/hub/ultralytics_yolov5/) to detect the object.`



			`<br />`



			`### Code Example`



			`Writing the pipeline in the simplified way`

			```Python
			`import towhee`

			`towhee.glob('./test.png') \`
			`.image_decode() \`
			`.object_detection.yolov5() \`
			`.show()`
			```

			`<img src="./results1.png" alt="results1" height="40px"/>`



			`<br />`



			`## Factory Constructor`

			`Create the operator via the following factory method`

			`*object_detection.yolov5()*`



			`<br />`



			`### Interface`

			`The operator takes an image as input. It first detects the objects appeared in the image, and gives the bounding box of each object.`

			`Parameters:`

			`img: numpy.ndarray`

			`Image data in ndarray format.`



			`Return: List[List[(int, int, int, int)], ...], List[str], List[float]`

			`The return value is a tuple of (boxes, classes, scores). The boxes is a list of bounding boxes. Each bounding box is represented by the top-left and the bottom right points, i.e. (x1, y1, x2, y2). The classes is a list of prediction labels. The scores is a list of the confidence scores.`
Initial commit 2 years ago