tf.image.non_max_suppression

tf.image.non_max_suppression(
    boxes,
    scores,
    max_output_size,
    iou_threshold=0.5,
    score_threshold=float('-inf'),
    name=None
)

Defined in tensorflow/python/ops/image_ops_impl.py.

Greedily selects a subset of bounding boxes in descending order of score.

Prunes away boxes that have high intersection-over-union (IOU) overlap with previously selected boxes. Bounding boxes are supplied as [y1, x1, y2, x2], where (y1, x1) and (y2, x2) are the coordinates of any diagonal pair of box corners and the coordinates can be provided as normalized (i.e., lying in the interval [0, 1]) or absolute. Note that this algorithm is agnostic to where the origin is in the coordinate system. Note that this algorithm is invariant to orthogonal transformations and translations of the coordinate system; thus translating or reflections of the coordinate system result in the same boxes being selected by the algorithm. The output of this operation is a set of integers indexing into the input collection of bounding boxes representing the selected boxes. The bounding box coordinates corresponding to the selected indices can then be obtained using the tf.gather operation. For example: selected_indices = tf.image.non_max_suppression( boxes, scores, max_output_size, iou_threshold) selected_boxes = tf.gather(boxes, selected_indices)

Args:

  • boxes: A 2-D float Tensor of shape [num_boxes, 4].
  • scores: A 1-D float Tensor of shape [num_boxes] representing a single score corresponding to each box (each row of boxes).
  • max_output_size: A scalar integer Tensor representing the maximum number of boxes to be selected by non max suppression.
  • iou_threshold: A float representing the threshold for deciding whether boxes overlap too much with respect to IOU.
  • score_threshold: A float representing the threshold for deciding when to remove boxes based on score.
  • name: A name for the operation (optional).

Returns:

  • selected_indices: A 1-D integer Tensor of shape [M] representing the selected indices from the boxes tensor, where M <= max_output_size.