TensorFlow 1 version
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View source on GitHub
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Generate a single randomly distorted bounding box for an image.
tf.image.sample_distorted_bounding_box(
image_size, bounding_boxes, seed=0, min_object_covered=0.1,
aspect_ratio_range=None, area_range=None, max_attempts=None,
use_image_if_no_bounding_boxes=None, name=None
)
Bounding box annotations are often supplied in addition to ground-truth labels
in image recognition or object localization tasks. A common technique for
training such a system is to randomly distort an image while preserving
its content, i.e. data augmentation. This Op outputs a randomly distorted
localization of an object, i.e. bounding box, given an image_size,
bounding_boxes and a series of constraints.
The output of this Op is a single bounding box that may be used to crop the
original image. The output is returned as 3 tensors: begin, size and
bboxes. The first 2 tensors can be fed directly into tf.slice to crop the
image. The latter may be supplied to tf.image.draw_bounding_boxes to
visualize what the bounding box looks like.
Bounding boxes are supplied and returned as [y_min, x_min, y_max, x_max].
The bounding box coordinates are floats in [0.0, 1.0] relative to the width
and height of the underlying image.
For example,
# Generate a single distorted bounding box.
begin, size, bbox_for_draw = tf.image.sample_distorted_bounding_box(
tf.shape(image),
bounding_boxes=bounding_boxes,
min_object_covered=0.1)
# Draw the bounding box in an image summary.
image_with_box = tf.image.draw_bounding_boxes(tf.expand_dims(image, 0),
bbox_for_draw)
tf.compat.v1.summary.image('images_with_box', image_with_box)
# Employ the bounding box to distort the image.
distorted_image = tf.slice(image, begin, size)
Note that if no bounding box information is available, setting
use_image_if_no_bounding_boxes = true will assume there is a single implicit
bounding box covering the whole image. If use_image_if_no_bounding_boxes is
false and no bounding boxes are supplied, an error is raised.
Args | |
|---|---|
image_size
|
A Tensor. Must be one of the following types: uint8, int8,
int16, int32, int64. 1-D, containing [height, width, channels].
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bounding_boxes
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A Tensor of type float32. 3-D with shape [batch, N, 4]
describing the N bounding boxes associated with the image.
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seed
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An optional int. Defaults to 0. If seed is set to non-zero, the
random number generator is seeded by the given seed. Otherwise, it is
seeded by a random seed.
|
min_object_covered
|
A Tensor of type float32. Defaults to 0.1. The
cropped area of the image must contain at least this fraction of any
bounding box supplied. The value of this parameter should be non-negative.
In the case of 0, the cropped area does not need to overlap any of the
bounding boxes supplied.
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aspect_ratio_range
|
An optional list of floats. Defaults to [0.75,
1.33]. The cropped area of the image must have an aspect ratio = width /
height within this range.
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area_range
|
An optional list of floats. Defaults to [0.05, 1]. The
cropped area of the image must contain a fraction of the supplied image
within this range.
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max_attempts
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An optional int. Defaults to 100. Number of attempts at
generating a cropped region of the image of the specified constraints.
After max_attempts failures, return the entire image.
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use_image_if_no_bounding_boxes
|
An optional bool. Defaults to False.
Controls behavior if no bounding boxes supplied. If true, assume an
implicit bounding box covering the whole input. If false, raise an error.
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name
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A name for the operation (optional). |
Returns | |
|---|---|
A tuple of Tensor objects (begin, size, bboxes).
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begin
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A Tensor. Has the same type as image_size. 1-D, containing
[offset_height, offset_width, 0]. Provide as input to
tf.slice.
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size
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A Tensor. Has the same type as image_size. 1-D, containing
[target_height, target_width, -1]. Provide as input to
tf.slice.
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bboxes
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A Tensor of type float32. 3-D with shape [1, 1, 4] containing
the distorted bounding box.
Provide as input to tf.image.draw_bounding_boxes.
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