Image Classifier using CNN

The article is about creating an Image classifier for identifying cat-vs-dogs using TFLearn in Python. The problem is here hosted on kaggle.

Machine Learning is now one of the most hot topics around the world. Well it can even be said as the new electricity in today’s world. But to be precise what is Machine Learning, well it’s just one way of teaching the machine by feeding the large amount of data. To know more about Machine learning and its algorithms you can refer to some links that is provided in the Reference sections of this article.

Today, we will create a Image Classifier of our own which can distinguish whether a given pic is of a dog or cat or something else depending upon your fed data. To achieve our goal, we will use one of the famous machine learning algorithms out there which is used for Image Classification i.e. Convolutional Neural Network(or CNN).
So basically what is CNN – as we know its an machine learning algorithm for machines to understand the features of image with a foresight and remember the features to guess whether the name of the new image feeded to the machine. Since its not an article explaining the CNN so i’ll add some links in the end if you guys are interested how CNN works and behaves.

So after going through all those links let us see how to create our very own cat-vs-dog image classifier. For the dataset we will use the kaggle dataset of cat-vs-dog:

  • train dataset- link
  • test dataset- link

Now after getting the data set we need to preprocess the data a bit and provide labels to each of the image given there during training the data set. To do so we can see that name of each image of training data set is either start with “cat” or “dog” so we will use that to our advantage then we use one hot encoder for machine to understand the labels(cat[1, 0] or dog[0, 1]).

def label_img(img):
    word_label = img.split('.')[-3]
 # DIY One hot encoder
    if word_label == 'cat': return [1, 0]
    elif word_label == 'dog': return [0, 1]

Libraries Required :

  • TFLearn – Deep learning library featuring a higher-level API for TensorFlow used to create layers of our CNN
  • tqdm – Instantly make your loops show a smart progress meter, just for simple designing sake
  • numpy – To process the image matrices
  • open-cv – To process the image like converting them to grayscale and etc.
  • os – To access the file system to read the image from the train and test directory from our machines
  • random – To shuffle the data to overcome the biasing
  • matplotlib – To display the result of our predictive outcome.
  • tensorflow – Just to use the tensorboard to compare the loss and adam curve our result data or obtained log.

TRAIN_DIR and TEST_DIR should be set according to the user convenience and play with the basic hyperparameters like epoch, learning rate, etc to improve the accuracy. I have converted the image to grayscale so that we will only have to deal with 2-d matrix otherwise 3-d matrix is tough to directly apply CNN to, especially not recommended for beginners. Below here is the code which is heavily commented or otherwise you can find the code here in my github account from this link.

# Python program to create
# Image Classifier using CNN
# Importing the required libraries
import cv2
import os
import numpy as np
from random import shuffle
from tqdm import tqdm
'''Setting up the env'''
TRAIN_DIR = 'E:/dataset / Cats_vs_Dogs / train'
TEST_DIR = 'E:/dataset / Cats_vs_Dogs / test1'
LR = 1e-3
'''Setting up the model which will help with tensorflow models'''
MODEL_NAME = 'dogsvscats-{}-{}.model'.format(LR, '6conv-basic')
'''Labelling the dataset'''
def label_img(img):
    word_label = img.split('.')[-3]
    # DIY One hot encoder
    if word_label == 'cat': return [1, 0]
    elif word_label == 'dog': return [0, 1]
'''Creating the training data'''
def create_train_data():
    # Creating an empty list where we should the store the training data
    # after a little preprocessing of the data
    training_data = []
    # tqdm is only used for interactive loading
    # loading the training data
    for img in tqdm(os.listdir(TRAIN_DIR)):
        # labeling the images
        label = label_img(img)
        path = os.path.join(TRAIN_DIR, img)
        # loading the image from the path and then converting them into
        # greyscale for easier covnet prob
        img = cv2.imread(path, cv2.IMREAD_GRAYSCALE)
        # resizing the image for processing them in the covnet
        img = cv2.resize(img, (IMG_SIZE, IMG_SIZE))
        # final step-forming the training data list with numpy array of the images
        training_data.append([np.array(img), np.array(label)])
    # shuffling of the training data to preserve the random state of our data
    # saving our trained data for further uses if required
    np.save('train_data.npy', training_data)
    return training_data
'''Processing the given test data'''
# Almost same as processing the traning data but
# we dont have to label it.
def process_test_data():
    testing_data = []
    for img in tqdm(os.listdir(TEST_DIR)):
        path = os.path.join(TEST_DIR, img)
        img_num = img.split('.')[0]
        img = cv2.imread(path, cv2.IMREAD_GRAYSCALE)
        img = cv2.resize(img, (IMG_SIZE, IMG_SIZE))
        testing_data.append([np.array(img), img_num])
    np.save('test_data.npy', testing_data)
    return testing_data
'''Running the training and the testing in the dataset for our model'''
train_data = create_train_data()
test_data = process_test_data()
# train_data = np.load('train_data.npy')
# test_data = np.load('test_data.npy')
'''Creating the neural network using tensorflow'''
# Importing the required libraries
import tflearn
from tflearn.layers.conv import conv_2d, max_pool_2d
from tflearn.layers.core import input_data, dropout, fully_connected
from tflearn.layers.estimator import regression
import tensorflow as tf
convnet = input_data(shape =[None, IMG_SIZE, IMG_SIZE, 1], name ='input')
convnet = conv_2d(convnet, 32, 5, activation ='relu')
convnet = max_pool_2d(convnet, 5)
convnet = conv_2d(convnet, 64, 5, activation ='relu')
convnet = max_pool_2d(convnet, 5)
convnet = conv_2d(convnet, 128, 5, activation ='relu')
convnet = max_pool_2d(convnet, 5)
convnet = conv_2d(convnet, 64, 5, activation ='relu')
convnet = max_pool_2d(convnet, 5)
convnet = conv_2d(convnet, 32, 5, activation ='relu')
convnet = max_pool_2d(convnet, 5)
convnet = fully_connected(convnet, 1024, activation ='relu')
convnet = dropout(convnet, 0.8)
convnet = fully_connected(convnet, 2, activation ='softmax')
convnet = regression(convnet, optimizer ='adam', learning_rate = LR,
      loss ='categorical_crossentropy', name ='targets')
model = tflearn.DNN(convnet, tensorboard_dir ='log')
# Splitting the testing data and training data
train = train_data[:-500]
test = train_data[-500:]
'''Setting up the features and lables'''
# X-Features & Y-Labels
X = np.array([i[0] for i in train]).reshape(-1, IMG_SIZE, IMG_SIZE, 1)
Y = [i[1] for i in train]
test_x = np.array([i[0] for i in test]).reshape(-1, IMG_SIZE, IMG_SIZE, 1)
test_y = [i[1] for i in test]
'''Fitting the data into our model'''
# epoch = 5 taken
model.fit({'input': X}, {'targets': Y}, n_epoch = 5
    validation_set =({'input': test_x}, {'targets': test_y}), 
    snapshot_step = 500, show_metric = True, run_id = MODEL_NAME)
'''Testing the data'''
import matplotlib.pyplot as plt
# if you need to create the data:
# test_data = process_test_data()
# if you already have some saved:
test_data = np.load('test_data.npy')
fig = plt.figure()
for num, data in enumerate(test_data[:20]):
    # cat: [1, 0]
    # dog: [0, 1]
    img_num = data[1]
    img_data = data[0]
    y = fig.add_subplot(4, 5, num + 1)
    orig = img_data
    data = img_data.reshape(IMG_SIZE, IMG_SIZE, 1)
    # model_out = model.predict([data])[0]
    model_out = model.predict([data])[0]
    if np.argmax(model_out) == 1: str_label ='Dog'
    else: str_label ='Cat'
    y.imshow(orig, cmap ='gray')

The output image will not be very clear since all the image are reduce to 50X50 for machine to process fast though the tradeoff between speed and loss.
And to access the tensorboard use the following command in your cmd(Windows user)

tensorboard --logdir=foo:C:UsersknapseckDesktopDevCov_Netlog


Reference Links for beginner to Machine Learning:

Reference Links for CNN :

This article is attributed to GeeksforGeeks.org

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