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This is an implementation of Bilinear CNN for fine grained visual recognition using TensorFlow.

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Bilinear_CNN TensorFlow

This is an implementation of Bilinear Convolutional Neural Network (Bilinear_CNN) using TensorFlow.

Main objective of this project is to implement Bilinear Convolutional Neural Network (Bilinear_CNN) for Fine-grained Visual Recognition using TensorFlow. I implemented the Bilinear Convolutional Neural Network (Bilinear_CNN) model as described in the http://vis-www.cs.umass.edu/bcnn/docs/bcnn_iccv15.pdf and trained it on the FGVC-Aircraft dataset with 100 categories. Bilinear Convolutional Neural Network model combines two Convolutional Neural Network architectures pre-trained on the ImageNet dataset using outer product at each location in the image. Training Bilinear Convolutional Neural Network model is a two step training procedure in which the last fully connected layer is trained first followed by the fine-tuning entire model using back propagation. In this project, I present experimental results of two methods on top of the Bilinear_CNN (DD) model as described in http://vis-www.cs.umass.edu/bcnn/docs/bcnn_iccv15.pdf which uses two VGG16 models pretrained on ImageNet dataset and then Bilinear_CNN (DD) model is trained on the FGVCAircraft dataset. One, I experimented with a slightly different approach in the two-step training procedure, where the training of the last layer is interrupted after 10-15 epochs and fine-tuning the entire model was started after that. Two, I used random cropping of images during the training of Bilinear_CNN (DD) model to see if there is any significant improvement in the accuracy of the Bilinear_CNN (DD) model on the FGVC-Aircraft dataset. I obtain 86.4% accuracy with the first method and 85.41% accuracy with the second method. Training of the network is done on NVIDIA Tesla M40 GPU. Training of last layer of Bilinear_CNN (DD) TensorFlow model runs at 20 frames/second and fine-tuning the entire Bilinear_CNN (DD) TensorFlow model runs at 10 frames/second.

To download the VGG16 model weigths and to get the TensorFlow model for VGG16, go to -> https://www.cs.toronto.edu/~frossard/post/vgg16/

I provide the Bilinear_CNN (BCNN) implmentation in TensorFlow.

bcnn_DD_woft.py and bcnn_DD_woft_with_random_crops.py are TensorFlow files used for the first step of the training procedure where only last layer of the Bilinear_CNN (DD) model is trained.
--> Learning rate = 0.9
--> Optimizer = Momentum optimizer with 0.9 momentum

bcnn_finetuning.py and bcnn_finetuning_with_random_crops.py are TensorFlow files used for the second step of the training procedure where finetuning is performed on the entire Bilinear_CNN (DD) model.
--> Learning rate = 0.001
--> Optimizer = Momentum optimizer with 0.9 momentum

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This is an implementation of Bilinear CNN for fine grained visual recognition using TensorFlow.

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