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Assignment #1: Image Classification, kNN, SVM, Softmax, Fully Connected Neural Network

Please familiarize yourself with the recommended workflow before starting the assignment. You should also watch the Colab walkthrough tutorial below.





Note. Ensure you are periodically saving your notebook (File
-> Save) so that you don’t lose your progress if you step away from the assignment and the Colab VM disconnects.

Once you have completed all Colab notebooks except collect_submission.ipynb, proceed to the submission instructions.

 Goals
In this assignment you will practice putting together a simple image classification pipeline based on the k-Nearest Neighbor or the SVM/Softmax classifier. The goals of this assignment are as follows:

Understand the basic Image Classification pipeline and the data-driven approach (train/predict stages).
Understand the train/val/test splits and the use of validation data for hyperparameter tuning.
Develop proficiency in writing efficient vectorized code with numpy.
Implement and apply a k-Nearest Neighbor (kNN) classifier.
Implement and apply a Multiclass Support Vector Machine (SVM) classifier.
Implement and apply a Softmax classifier.
Implement and apply a Two layer neural network classifier.
Understand the differences and tradeoffs between these classifiers.
Get a basic understanding of performance improvements from using higher-level representations as opposed to raw pixels, e.g. color histograms, Histogram of Oriented Gradient (HOG) features, etc.
 Q1: k-Nearest Neighbor classifier
The notebook knn.ipynb will walk you through implementing the kNN classifier.

 Q2: Training a Support Vector Machine
The notebook svm.ipynb will walk you through implementing the SVM classifier.

 Q3: Implement a Softmax classifier
The notebook softmax.ipynb will walk you through implementing the Softmax classifier.

 Q4: Two-Layer Neural Network
The notebook two_layer_net.ipynb will walk you through the implementation of a two-layer neural network classifier.

 Q5: Higher Level Representations: Image Features
The notebook features.ipynb will examine the improvements gained by using higher-level representations as opposed to using raw pixel values.

 Submitting your work
Important. Please make sure that the submitted notebooks have been run and the cell outputs are visible.

Once you have completed all notebooks and filled out the necessary code, you need to follow the below instructions to submit your work:

1. Open collect_submission.ipynb in Colab and execute the notebook cells.

This notebook/script will:

Generate a zip file of your code (.py and .ipynb) called a1_code_submission.zip.
Convert all notebooks into a single PDF file.
If your submission for this step was successful, you should see the following display message:

###
Done! Please submit a1_code_submission.zip and
a1_inline_submission.pdf to Gradescope. ###

2. Submit the PDF and the zip file to Gradescope.

Remember to download a1_code_submission.zip and a1_inline_submission.pdf locally before submitting to Gradescope.


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