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A super-resolution dataset consists of paired LR-HR scene text images.

Requirements

Train and Test

download the Aster model from https://github.com/ayumiymk/aster.pytorch, Moran model from https://github.com/Canjie-Luo/MORAN_v2, CRNN model from https://github.com/meijieru/crnn.pytorch.

Change TRAIN.VAL.rec_pretrained in src/configs/super_resolution.yaml to your Aster model path, change TRAIN.VAL.moran_pretrained to your MORAN model path and change TRAIN.VAL.crnn_pretrained to your CRNN model path.

Change TRAIN.train_data_dir to your train data path. Change TRAIN.VAL.val_data_dir to your val data path.

cd ./src/

python3 main.py --batch_size=1024 --STN --mask --gradient --vis_dir='vis'

python3 main.py --batch_size=1024 --test --test_data_dir='your-test-lmdb-dataset' --resume='your-model.pth' --STN --mask --gradient --vis_dir='vis'

python3 main.py --demo --demo_dir='./images/' --resume='your-model.pth' --STN --mask

TextZoom Dataset (allocated by size):

Paper: arxiv

Data (Lmdb): Badiu NetDisk. password: kybq; Google Drive

lmxb keys: 

def buf2PIL(txn, key, type='RGB'):
    imgbuf = txn.get(key)
    buf = six.BytesIO()
    buf.write(imgbuf)
    buf.seek(0)
    im = Image.open(buf).convert(type)
    return im
    
nSamples = int(txn.get(b'num-samples'))

label_key = b'label-%09d' % index
word = str(txn.get(label_key).decode())

img_HR_key = b'image_hr-%09d' % index 
img_lr_key = b'image_lr-%09d' % index
img_HR = buf2PIL(txn, img_HR_key, 'RGB')
img_lr = buf2PIL(txn, img_lr_key, 'RGB')

The LR images in TextZoom is much more challenging than synthetic LR images(BICUBIC).

<img src="syn_real.jpg" width=80% />

We allocate our dataset into 3 part following difficulty: easy, medium and hard subset. The misalignment and ambiguity increases as the difficulty increases.

<img src="easy_medium_hard.jpg" width=80% />

For each pair of LR-HR images, we provide the annotation of the case sensitive character string (including punctuation), the type of the bounding box, and the original focal lengths.

Other data

    architecture of json: (sr_raw.json and real_sr.json have the same arch)
    'position' is the bounding box,
    'rawFileName' is the original image name, you need to download the SRRAW and RealSR dataset.
    'words' is the word label.
    'type' means the direction of bounding box, 'td' means top down, 'vn' means negative vertical (counterclockwise 90 degrees), 
    'vp' means positive vertical (clockwise 90 degrees), 'h' means horizontal.

    
    with open('real_sr.json') as f:
        d=json.load(f)
    d['0']=
    {'channal': '3',
     'height':  '2300',
     'id':      'cbe0e4cba6ba6cd42d8ed4779087214a',
     'polygons': {'wordRect': 
                 [{'line-type': 'straight',
                    'position': [{'x': '247.94625', 'y': '186.31634'},
                     {'x': '99.29263', 'y': '186.60167'},
                     {'x': '99.29263', 'y': '165.77304'},
                     {'x': '247.94625', 'y': '166.34369'}],
                    'type': 'td',
                    'valid': 'true',
                    **'words': 'QU04029757'**},
                   {'line-type': 'straight',
                    'position': [{'x': '63.18353', 'y': '703.61181'},
                     {'x': '61.66713', 'y': '542.87290'},
                     {'x': '127.88347', 'y': '540.85103'},
                     {'x': '130.41081', 'y': '702.60087'}],
                    'type': 'vn',
                    'valid': 'true',
                    'words': '100'},
                   ...
                   ]},
     'rawFilePath':   'test',
     'rawFilename':   'Canon_046_HR.png',
     'result_version': '1.0',
     'rotate':    '0',
     'valid':     'true',
     'width':     '2500',
     'wordRect-validity': 'true'}