Document Processing
Collection
Any model or dataset dealing with documentary-type objects (layout detection, VQA, OCR, etc.)
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DIT-base-layout-detection
We present the model cmarkea/dit-base-layout-detection, which allows extracting different layouts (Text, Picture, Caption, Footnote, etc.) from an image of a document. This is a fine-tuning of the model dit-base on the DocLayNet dataset. It is ideal for processing documentary corpora to be ingested into an ODQA system.
This model allows extracting 11 entities, which are: Caption, Footnote, Formula, List-item, Page-footer, Page-header, Picture, Section-header, Table, Text, and Title.
Performance
In this section, we will assess the model's performance by separately considering semantic segmentation and object detection. We did not perform any post-processing
for the semantic segmentation. As for object detection, we only applied OpenCV's findContours without any further post-processing.
For semantic segmentation, we will use the F1-score to evaluate the classification of each pixel. For object detection, we will assess performance based on the Generalized Intersection over Union (GIoU) and the accuracy of the predicted bounding box class. The evaluation is conducted on 500 pages from the PDF evaluation dataset of DocLayNet.
| Class | f1-score (x100) | GIoU (x100) | accuracy (x100) |
|---|---|---|---|
| Background | 94.98 | NA | NA |
| Caption | 75.54 | 55.61 | 72.62 |
| Footnote | 72.29 | 50.08 | 70.97 |
| Formula | 82.29 | 49.91 | 94.48 |
| List-item | 67.56 | 35.19 | 69 |
| Page-footer | 83.93 | 57.99 | 94.06 |
| Page-header | 62.33 | 65.25 | 79.39 |
| Picture | 78.32 | 58.22 | 92.71 |
| Section-header | 69.55 | 56.64 | 78.29 |
| Table | 83.69 | 63.03 | 90.13 |
| Text | 90.94 | 51.89 | 88.09 |
| Title | 61.19 | 52.64 | 70 |
Benchmark
Now, let's compare the performance of this model with other models.
| Model | f1-score (x100) | GIoU (x100) | accuracy (x100) |
|---|---|---|---|
| cmarkea/dit-base-layout-detection | 90.77 | 56.29 | 85.26 |
| cmarkea/detr-layout-detection | 91.27 | 80.66 | 90.46 |
Direct Use
import torch
from transformers import AutoImageProcessor, BeitForSemanticSegmentation
img_proc = AutoImageProcessor.from_pretrained(
"cmarkea/dit-base-layout-detection"
)
model = BeitForSemanticSegmentation.from_pretrained(
"cmarkea/dit-base-layout-detection"
)
img: PIL.Image
with torch.inference_mode():
input_ids = img_proc(img, return_tensors='pt')
output = model(**input_ids)
segmentation = img_proc.post_process_semantic_segmentation(
output,
target_sizes=[img.size[::-1]]
)
Here is a simple method for detecting bounding boxes from semantic segmentation. This is the method used to calculate the model's performance in object detection, as described in the "Performance" section. The method is provided without any additional post-processing.
import cv2
def detect_bboxes(masks: np.ndarray):
r"""
A simple bounding box detection function
"""
detected_blocks = []
contours, _ = cv2.findContours(
masks.astype(np.uint8),
cv2.RETR_EXTERNAL,
cv2.CHAIN_APPROX_SIMPLE
)
for contour in list(contours):
if len(list(contour)) >= 4:
# smallest rectangle containing all points
x, y, width, height = cv2.boundingRect(contour)
bounding_box = [x, y, x + width, y + height]
detected_blocks.append(bounding_box)
return detected_blocks
bbox_pred = []
for segment in segmentation:
boxes, labels = [], []
for ii in range(1, len(model.config.label2id)):
mm = segment == ii
if mm.sum() > 0:
bbx = detect_bboxes(mm.numpy())
boxes.extend(bbx)
labels.extend([ii]*len(bbx))
bbox_pred.append(dict(boxes=boxes, labels=labels))
Example
Citation
@online{DeDitLay,
AUTHOR = {Cyrile Delestre},
URL = {https://huggingface.co./cmarkea/dit-base-layout-detection},
YEAR = {2024},
KEYWORDS = {Image Processing ; Transformers ; Layout},
}
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