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What is this repo?

  • Simple faster-RCNN codes in Keras!

  • RPN (region proposal layer) can be trained separately!

  • Active support! :)

  • MobileNetv1 & v2 support!

  • VGG support!

  • added eval for pascal_voc :)

Stars and forks are appreciated if this repo helps your project, will motivate me to support this repo.

PR and issues will help too!

Thanks :)

Frameworks

Tested with Tensorflow==1.12.0 and Keras 2.2.4.

Kaggle Notebook examples

  • Global Wheat Detection

train-faster-rcnn-using-keras

Nice kernel by kishor1210

Compared to the forked keras-frcnn..

  1. mobilenetv1 and mobilenetv2 supported. Can also try Mobilenetv1_05,Mobilenetv1_25 for smaller nets on the Edge.
  2. VGG19 support added.
  3. RPN can be trained seperately.

Pytorch object detectors

https://github.com/kentaroy47/ObjectDetection.Pytorch

Here are my object detection models in Pytorch. The model is SSD and trains quite fast.

trained model

vgg16

https://drive.google.com/file/d/1IgxPP0aI5pxyPHVSM2ZJjN1p9dtE4_64/view?usp=sharing

config.pickle:

https://drive.google.com/open?id=1BL_2ZgTf55vH2q1jvVz0hkhlWYgj-coa

Running scripts..

1. clone the repo

git clone https://github.com/kentaroy47/frcnn-from-scratch-with-keras.git
cd frcnn-from-scratch-with-keras

Install requirements. make sure that you have Keras installed.

pip install -r requirements.txt

2. Download pretrained weights.

Using imagenet pretrained VGG16 weights will significantly speed up training.

Download and place it in the root directory.

You can choose other base models as well.

# place weights in pretrain dir.
mkdir pretrain & mv pretrain

# download models you would like to use.
# for VGG16
wget https://github.com/fchollet/deep-learning-models/releases/download/v0.1/vgg16_weights_tf_dim_ordering_tf_kernels.h5

# for mobilenetv1
wget https://github.com/fchollet/deep-learning-models/releases/download/v0.6/mobilenet_1_0_224_tf.h5

# for mobilenetv2
wget https://github.com/JonathanCMitchell/mobilenet_v2_keras/releases/download/v1.1/mobilenet_v2_weights_tf_dim_ordering_tf_kernels_1.0_224.h5

# for resnet 50
wget https://github.com/fchollet/deep-learning-models/releases/download/v0.1/resnet50_weights_tf_dim_ordering_tf_kernels.h5

Other tensorflow pretrained models are in bellow.

https://github.com/fchollet/deep-learning-models/releases/

3. lets train region proposal network first, rather than training the whole network.

Training the entire faster-rcnn is quite difficult, but RPN itself can be more handy!

You can see if the loss converges.. etc

Other network options are: resnet50, mobilenetv1, vgg19.

python train_rpn.py --network vgg -o simple -p /path/to/your/dataset/

Epoch 1/20
100/100 [==============================] - 57s 574ms/step - loss: 5.2831 - rpn_out_class_loss: 4.8526 - rpn_out_regress_loss: 0.4305 - val_loss: 4.2840 - val_rpn_out_class_loss: 3.8344 - val_rpn_out_regress_loss: 0.4496
Epoch 2/20
100/100 [==============================] - 51s 511ms/step - loss: 4.1171 - rpn_out_class_loss: 3.7523 - rpn_out_regress_loss: 0.3649 - val_loss: 4.5257 - val_rpn_out_class_loss: 4.1379 - val_rpn_out_regress_loss: 0.3877
Epoch 3/20
100/100 [==============================] - 49s 493ms/step - loss: 3.4928 - rpn_out_class_loss: 3.1787 - rpn_out_regress_loss: 0.3142 - val_loss: 2.9241 - val_rpn_out_class_loss: 2.5502 - val_rpn_out_regress_loss: 0.3739
Epoch 4/20
 80/100 [=======================>......] - ETA: 9s - loss: 2.8467 - rpn_out_class_loss: 2.5729 - rpn_out_regress_loss: 0.2738  

4. then train the whole Faster-RCNN network!

I recommend using the pretrained RPN model, which will stablize training. You can download the rpn model (VGG16) from here: https://drive.google.com/file/d/1IgxPP0aI5pxyPHVSM2ZJjN1p9dtE4_64/view?usp=sharing

# sample command
python train_frcnn.py --network vgg -o simple -p /path/to/your/dataset/

# using the rpn trained in step.3 will make the training more stable.
python train_frcnn.py --network vgg -o simple -p /path/to/your/dataset/ --rpn models/rpn/rpn.vgg.weights.36-1.42.hdf5

# sample command to train PASCAL_VOC dataset:
python train_frcnn.py -p ../VOCdevkit/ --lr 1e-4 --opt SGD --network vgg --elen 1000 --num_epoch 100 --hf 
# this may take about 12 hours with GPU..

# add --load yourmodelpath if you want to resume training.
python train_frcnn.py --network vgg16 -o simple -p /path/to/your/dataset/ --load model_frcnn.hdf5

Using TensorFlow backend.
Parsing annotation files
Training images per class:
{'Car': 1357, 'Cyclist': 182, 'Pedestrian': 5, 'bg': 0}
Num classes (including bg) = 4
Config has been written to config.pickle, and can be loaded when testing to ensure correct results
Num train samples 401
Num val samples 88
loading weights from ./pretrain/mobilenet_1_0_224_tf.h5
loading previous rpn model..
no previous model was loaded
Starting training
Epoch 1/200
100/100 [==============================] - 150s 2s/step - rpn_cls: 4.5333 - rpn_regr: 0.4783 - detector_cls: 1.2654 - detector_regr: 0.1691  
Mean number of bounding boxes from RPN overlapping ground truth boxes: 1.74
Classifier accuracy for bounding boxes from RPN: 0.935625
Loss RPN classifier: 4.244322432279587
Loss RPN regression: 0.4736669697239995
Loss Detector classifier: 1.1491613787412644
Loss Detector regression: 0.20629869312047958
Elapsed time: 150.15273475646973
Total loss decreased from inf to 6.07344947386533, saving weights
Epoch 2/200
Average number of overlapping bounding boxes from RPN = 1.74 for 100 previous iterations
 38/100 [==========>...................] - ETA: 1:24 - rpn_cls: 3.2813 - rpn_regr: 0.4576 - detector_cls: 0.8776 - detector_regr: 0.1826

5. test your models

For evaluation and getting mAP, please take a look at eval.ipynb

Bad training results?

See issue #6 and look for help.

Dataset setup.

You can either try voc or simple parsers for your dataset.

simple parsers are much easier, while you train your network as:

python train_rpn.py --network vgg16 -o simple -p ./dataset.txt

Simply provide a text file, with each line containing:

filepath,x1,y1,x2,y2,class_name

For example:

/data/imgs/img_001.jpg,837,346,981,456,cow 
/data/imgs/img_002.jpg,215,312,279,391,cat

Labeling tools.

You can do labeling with tools. I highly recommend Labelme, which is easy to use.

https://github.com/wkentaro/labelme

you can directly output VOC-like dataset from your labeled results.

look at the example below.

https://github.com/kentaroy47/labelme-voc-format/tree/master/examples

There are other tools like Labellmg too, if interested.

https://github.com/tzutalin/labelImg

Example.. to set up VOC2007 training..

download dataset and extract.

wget http://host.robots.ox.ac.uk/pascal/VOC/voc2007/VOCtrainval_06-Nov-2007.tar
wget http://host.robots.ox.ac.uk/pascal/VOC/voc2007/VOCtest_06-Nov-2007.tar
wget http://host.robots.ox.ac.uk/pascal/VOC/voc2012/VOCtrainval_11-May-2012.tar
tar -xf VOCtrainval_06-Nov-2007.tar
tar -xf VOCtest_06-Nov-2007.tar
tar -xf VOCtrainval_11-May-2012.tar

then run training

python train_frcnn.py --network mobilenetv1 -p ./VOCdevkit

Using TensorFlow backend.
data path: ['VOCdevkit/VOC2007']
Parsing annotation files
[Errno 2] No such file or directory: 'VOCdevkit/VOC2007/ImageSets/Main/test.txt'
Training images per class:
{'aeroplane': 331,
 'bg': 0,
 'bicycle': 418,
 'bird': 599,
 'boat': 398,
 'bottle': 634,
 'bus': 272,
 'car': 1644,
 'cat': 389,
 'chair': 1432,
 'cow': 356,
 'diningtable': 310,
 'dog': 538,
 'horse': 406,
 'motorbike': 390,
 'person': 5447,
 'pottedplant': 625,
 'sheep': 353,
 'sofa': 425,
 'train': 328,
 'tvmonitor': 367}
Num classes (including bg) = 21
Config has been written to config.pickle, and can be loaded when testing to ensure correct results
Num train samples 5011
Num val samples 0
Instructions for updating:
Colocations handled automatically by placer.
loading weights from ./pretrain/mobilenet_1_0_224_tf.h5
loading previous rpn model..
no previous model was loaded
Starting training
Epoch 1/200
Instructions for updating:
Use tf.cast instead.
  23/1000 [..............................] - ETA: 43:30 - rpn_cls: 7.3691 - rpn_regr: 0.1865 - detector_cls: 3.0206 - detector_regr: 0.3050 

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