Fashion Image classification (fashion_mnist) using a LaNet Architecture in Python

Fashion image classification is a task of recognizing the type of clothing or accessory present in an image. The Fashion MNIST dataset is a commonly used dataset for this task, and it consists of images of clothing and accessories, along with their corresponding labels. In this essay, we will discuss how to classify these images using a LeNet architecture in Python.

The first step in classifying fashion images using a LeNet architecture is to prepare the data. This typically involves loading the Fashion MNIST dataset, dividing it into training and test sets, and preprocessing the data to make it suitable for the model. This can include normalizing the pixel values, and one-hot encoding the labels.

The next step is to define the LeNet architecture. LeNet is a convolutional neural network architecture designed to recognize handwritten digits. In this case, it will be used to classify images of clothing and accessories. The architecture consists of several layers, including convolutional layers, pooling layers, and fully connected layers. In Python, these layers can be defined using the layers from the Keras library.

Once the architecture is defined, the next step is to train the model on the dataset. This can be done using the fit function in Keras. The fit function takes in the training data, the target values, and the number of epochs, among other parameters. The number of epochs is the number of times the model is trained on the entire dataset.

After the model is trained, it’s ready to be evaluated. This can be done by using the model to make predictions on the test set, and comparing the predicted labels with the true labels. The evaluation can be done using metrics such as accuracy, precision, and recall.

Finally, once the model is trained and evaluated, it can be used for prediction on new data. This can be done by using the predict function in Keras, which takes in the input data and returns the predicted labels.

It’s worth noting that the LeNet architecture is a relatively simple architecture, and it may not be sufficient to achieve high accuracy on more complex image classification tasks. However, it can be used as a starting point to build more complex architectures.

In summary, fashion image classification (fashion_mnist) using a LeNet architecture in Python involves several steps, including preparing the data, defining the LeNet architecture, training the model on the dataset, evaluating the model on the test set, and using the model for prediction on new data. The LeNet architecture is a relatively simple architecture, and it may not be sufficient to achieve high accuracy on more complex image classification tasks. However, it can be used as a starting point to build more complex architectures.

In this Applied Machine Learning & Data Science Recipe (Jupyter Notebook), the reader will find the practical use of applied machine learning and data science in Python programming: Fashion Image classification (fashion_mnist) using a LaNet Architecture in Python.

What should I learn from this recipe?

You will learn:

• How to code a keras and tensorflow model in Python.
• How to setup a sequential deep learning model in Python.
• How to setup Early Stopping in a Deep Learning Model in Keras.
• How to split train and test datasets in a Deep Leaning Model in Keras.
• How to incorporate Multiple Layers in a Deep Learning model.
• How to reduce overfitting in a Deep Learning model.
• How to test different OPTIMIZERs and Epoch Sizes in a Deep Learning model.
• How to setup an experiment in a Deep Learning model.
• How to setup CNN layers in Keras for image classification.
• How to classify images using CNN layers in Keras: An application of MNIST Dataset
• How to create simulated data using scikit-learn.
• How to create training and testing dataset using scikit-learn.
• How to train a tensorflow and keras model.
• How to report confusion matrix.
• How to plot MNIST dataset in Python.
• Fashion Image classification (fashion_mnist) using a LaNet Architecture in Python.

Fashion Image classification (fashion_mnist) using a LaNet Architecture in Python:

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