This is a multiclass image classification & localization project for SINGLE object using CNN's and TensorFlow on Python3.
pip3 install requirements.txt
Cloning the repository to local machine:
git clone https://github.com/MuhammedBuyukkinaci/Object-Classification-and-Localization-with-TensorFlow
Changing directory to this folder
cd Object-Classification-and-Localization-with-TensorFlow
1 ) Augmenting data:
python3 create_training_data.py
2 ) Training the CNN:
python3 train.py
3 ) Testing on unseen data:
python3 test.py
I trained on a GTX 1050. 1 epoch lasted 10 seconds approximately.
If you are using CPU, which I do not recommend, change the lines below in train.py:
config = tf.ConfigProto(allow_soft_placement=True)
config.gpu_options.allow_growth = True
config.gpu_options.allocator_type = 'BFC'
with tf.Session(config=config) as sess:
to
with tf.Session() as sess:
3 categories: Cucumber, eggplant and mushroom. 188 images from 3 categories were used in this project. Images used in this project are in training_images folder. You can also download them from here.
1 ) Collecting images via Google Image Download. Only one object must be in the image. After collecting images, you must resize them to in order to be able to label.
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2 ) Labeling images via LabelImg.
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3 ) Data Augmentation (create_training_data.py). Mirroring with respect to x axis, mirroring with respect to y axis and adding noise were carried out. Hereby, data amount is 8-fold.
4 ) After data augmentation, create_training_data.py script is creating suitable xml files for augmented images(in order not to label all augmented labels).
5 ) Making our data tabular. Input is image that we feed into CNN. Output1 is one hot encoded classification output. Output2 is the locations of bounding boxes(regression) in create_training_data.py.
6 ) Determining hypermaraters in train.py.
7 ) Separating labelled data as train and CV in train.py.
8 ) Defining our architecture in train.py. I used AlexNet for model architecture.
9 ) Creating 2 heads for calculating loss in train.py. One head is classification loss. The other head is regression loss.
10 ) Training the CNN on a GPU (GTX 1050 - One epoch lasted 10 seconds approximately)
11 ) Testing on unseen data (testing_images folder) collected from the Internet(in test.py).
AlexNet is used as architecture. 5 convolution layers and 3 Fully Connected Layers with 0.5 Dropout Ratio. 60 million Parameters.
