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Project Overview

Welcome to the Convolutional Neural Networks (CNN) project in the AI Nanodegree! In this project, you will learn how to build a pipeline that can be used within a web or mobile app to process real-world, user-supplied images. Given an image of a dog, your algorithm will identify an estimate of the canine’s breed. If supplied an image of a human, the code will identify the resembling dog breed.

Sample Output

Along with exploring state-of-the-art CNN models for classification, you will make important design decisions about the user experience for your app. Our goal is that by completing this lab, you understand the challenges involved in piecing together a series of models designed to perform various tasks in a data processing pipeline. Each model has its strengths and weaknesses, and engineering a real-world application often involves solving many problems without a perfect answer. Your imperfect solution will nonetheless create a fun user experience!

Project Instructions

Instructions

  1. Clone the repository and navigate to the downloaded folder.

    	git clone https://github.com/udacity/dog-project.git
    	cd dog-project
    
  2. Download the dog dataset. Unzip the folder and place it in the repo, at location path/to/dog-project/dogImages.

  3. Download the human dataset. Unzip the folder and place it in the repo, at location path/to/dog-project/lfw. If you are using a Windows machine, you are encouraged to use 7zip to extract the folder.

  4. Donwload the VGG-16 bottleneck features for the dog dataset. Place it in the repo, at location path/to/dog-project/bottleneck_features.

  5. Install the necessary Python packages. If you are using a Mac, you need to pick only one of the two options below.

    For Mac/OSX (Option 1):

    	pip install -r requirements/requirements.txt
    	KERAS_BACKEND=tensorflow python -c "from keras import backend"
    

    For Mac/OSX (Option 2):

    	conda env create -f requirements/aind-dog-mac.yml
    	source activate aind-dog
    	KERAS_BACKEND=tensorflow python -c "from keras import backend"
    

    For Windows:

    	conda env create -f requirements/aind-dog-windows.yml
    	activate aind-dog
    	set KERAS_BACKEND=tensorflow python -c "from keras import backend"
    
  6. Open the notebook and follow the instructions.

    	jupyter notebook dog_app.ipynb
    

NOTE: While some code has already been implemented to get you started, you will need to implement additional functionality to successfully answer all of the questions included in the notebook. Unless requested, do not modify code that has already been included.

NOTE: In the notebook, you will need to train CNNs in Keras. If your CNN is taking too long to train, feel free to pursue one of the options under the section Accelerating the Training Process below.

(Optionally) Accelerating the Training Process

If your code is taking too long to run, you will need to either reduce the complexity of your chosen CNN architecture or switch to running your code on a GPU. If you'd like to use a GPU, you have two options:

Build your Own Deep Learning Workstation

If you have access to a GPU, you should follow the Keras instructions for running Keras on GPU.

Amazon Web Services

Instead of a local GPU, you could use Amazon Web Services to launch an EC2 GPU instance. (This costs money.)

Evaluation

Your project will be reviewed by a Udacity reviewer against the CNN project rubric. Review this rubric thoroughly, and self-evaluate your project before submission. All criteria found in the rubric must meet specifications for you to pass.

Project Submission

Your submission should consist of the github link to your repository. Your repository should contain:

  • The dog_app.ipynb file with fully functional code, all code cells executed and displaying output, and all questions answered.
  • An HTML or PDF export of the project notebook with the name report.html or report.pdf.

Please do NOT include any of the project data sets provided in the dogImages/ or lfw/ folders.

Ready to submit your project?

Click on the "Submit Project" button and follow the instructions to submit!

Project Rubric

Files Submitted

Criteria Meets Specifications
Submission Files The submission includes all required files.

Documentation

Criteria Meets Specifications
Comments The submission includes comments that describe the functionality of the code. Every line of code is preceded by a meaningful comment.

Step 1: Detect Humans

Criteria Meets Specifications
Question 1: Assess the Human Face Detector The submission returns the percentage of the first 100 images in the dog and human face datasets with a detected human face.
Question 2: Assess the Human Face Detector The submission opines whether Haar cascades for face detection are an appropriate technique for human detection.

Step 2: Detect Dogs

Criteria Meets Specifications
Question 3: Assess the Dog Detector The submission returns the percentage of the first 100 images in the dog and human face datasets with a detected dog.

Step 3: Create a CNN to Classify Dog Breeds (from Scratch)

Criteria Meets Specifications
Model Architecture The submission specifies a CNN architecture.
Train the Model The submission specifies the number of epochs used to train the algorithm.
Test the Model The trained model attains at least 1% accuracy on the test set.

Step 5: Create a CNN to Classify Dog Breeds (using Transfer Learning)

Criteria Meets Specifications
Obtain Bottleneck Features The submission downloads the bottleneck features corresponding to one of the Keras pre-trained models (VGG-19, ResNet-50, Inception, or Xception).
Model Architecture The submission specifies a model architecture.
Question 5: Model Architecture The submission details why the chosen architecture succeeded in the classification task and why earlier attempts were not as successful.
Compile the Model The submission compiles the architecture by specifying the loss function and optimizer.
Train the Model The submission uses model checkpointing to train the model and saves the model with the best validation loss.
Load the Model with the Best Validation Loss The submission loads the model weights that attained the least validation loss.
Test the Model Accuracy on the test set is 60% or greater.
Predict Dog Breed with the Model The submission includes a function that takes a file path to an image as input and returns the dog breed that is predicted by the CNN.

Step 6: Write your Algorithm

Criteria Meets Specifications
Write your Algorithm The submission uses the CNN from Step 5 to detect dog breed. The submission has different output for each detected image type (dog, human, other) and provides either predicted actual (or resembling) dog breed.

Step 7: Test your Algorithm

Criteria Meets Specifications
Test Your Algorithm on Sample Images! The submission tests at least 6 images, including at least two human and two dog images.
Question 6: Test Your Algorithm on Sample Images! The submission discusses performance of the algorithm and discusses at least three possible points of improvement.

Suggestions to Make your Project Stand Out!

(Presented in no particular order ...)

(1) Augment the Training Data

Augmenting the training and/or validation set might help improve model performance.

(2) Turn your Algorithm into a Web App

Turn your code into a web app using Flask or web.py!

(3) Overlay Dog Ears on Detected Human Heads

Overlay a Snapchat-like filter with dog ears on detected human heads. You can determine where to place the ears through the use of the OpenCV face detector, which returns a bounding box for the face. If you would also like to overlay a dog nose filter, some nice tutorials for facial keypoints detection exist here.

(4) Add Functionality for Dog Mutts

Currently, if a dog appears 51% German Shephard and 49% poodle, only the German Shephard breed is returned. The algorithm is currently guaranteed to fail for every mixed breed dog. Of course, if a dog is predicted as 99.5% Labrador, it is still worthwhile to round this to 100% and return a single breed; so, you will have to find a nice balance.

(5) Experiment with Multiple Dog/Human Detectors

Perform a systematic evaluation of various methods for detecting humans and dogs in images. Provide improved methodology for the face_detector and dog_detector functions.

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AIND Term 2 -- CNN Project

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