--- license: cc-by-4.0 configs: - config_name: default data_files: - split: train path: data/train-* - split: validation path: data/validation-* - split: test path: data/test-* dataset_info: features: - name: image dtype: image - name: image_name dtype: string - name: width dtype: int64 - name: height dtype: int64 - name: instances list: - name: category_id dtype: int64 - name: mask sequence: sequence: float64 splits: - name: train num_bytes: 8927542.0 num_examples: 200 - name: validation num_bytes: 4722935.0 num_examples: 100 - name: test num_bytes: 3984722.0 num_examples: 100 download_size: 16709320 dataset_size: 17635199.0 --- # Line Graphics (LG) dataset This is the official page for the LG dataset for our paper [Line Graphics Digitization: A Step Towards Full Automation](https://link.springer.com/chapter/10.1007/978-3-031-41734-4_27). By [Omar Moured](https://www.linkedin.com/in/omar-moured/) et al. ## Dataset Summary The dataset features instance segmentation masks for **400 real line chart images manually labeled 11 categories** by professionals. Images are collected from 5 different prfessions to increase the richfullness. In our paper we studedi two level of segmentations, **coarse-level** where we segment (spines, axis-labels, legend, lines, titles), and **fine-level** where we have for each category an x and y subclasses (except legend and lines) and also each line is segmented seperatly. ## Category ID Reference ```python class_id_mapping = { "Label": 0, "Legend": 1, "Line": 2, "Spine": 3, "Title": 4, "ptitle": 5, "xlabel": 6, "xspine": 7, "xtitle": 8, "ylabel": 9, "yspine": 10, "ytitle": 11 } ``` ## Dataset structure (train,validation,test) - **images** - contains the PIL image of the chart - **image_name** - image name with PNG extension - **width** - original image width - **height** - original image height - **instances** - contains **n** number of labeled instances, each instance dictionary has {category_id, annotations}. **The annotations are in COCO format**. ## Sample Usage ```python from datasets import load_dataset # Load the dataset dataset = load_dataset("omoured/line-graphics-dataset") # Access the training split train_dataset = dataset["train"] # Print sample data print(dataset["train"][0]) ``` You can render the masks using `pycocotools` library as follows: ```python from pycocotools import mask polygon_coords = dataset['train'][0]['instances'][1]['mask'] image_width = dataset['validation'][0]['width'] image_height = dataset['validation'][0]['height'] mask_binary = mask.frPyObjects(polygon_coords, image_height, image_width) segmentation_mask = mask.decode(mask_binary) ``` ## Copyrights This dataset is published under the CC-BY 4.0 license, which allows for unrestricted usage, but it should be cited when used. ## Citation ```bibtex @inproceedings{moured2023line, title={Line Graphics Digitization: A Step Towards Full Automation}, author={Moured, Omar and Zhang, Jiaming and Roitberg, Alina and Schwarz, Thorsten and Stiefelhagen, Rainer}, booktitle={International Conference on Document Analysis and Recognition}, pages={438--453}, year={2023}, organization={Springer} } ``` ## Contact If you have any questions or need further assistance with this dataset, please feel free to contact us: - **Omar Moured**, omar.moured@kit.edu