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Neural Cryptography paper

These are tools experimenting with neural cryptography. More specifically, tools developed to allow neural networks to communicate in the presence of adversarial networks. Experiments with currently only symmetric key encryption have been done. However, we indent to broaden our model designs as development continues.

This was done as the final project to an MIT course, 6.857. You can view the paper here

The models are written in Keras and are trained using the tensorflow backend. Once completed, this ReadMe will include a comprehensive summary of our findings and results.

Cryptographic and Architectural Descriptions

Symmetric Key Encryption

These are network architecture's for performing symmetric key encryption. In this symmetric key encryption schheme, two parties known as Alice and Bob would like to communicate securely in the presence of an eavesdropping adversary, Eve.

We have developed several approaches to teaching neural networks to perform this kind of encryption. These are described as follows.

Small Convolutional Networks

This architecture is largely based on the Google Brain Paper here. Alice, Bob, and Eve are neural networks trained adversarially in the form of alternating training Alice/Bob and Eve. Alice is given a plaintext, P, and a key, K, and is asked to produce an encrypted ciphertext, C. Bob is asked to decrypt that C into P given K. Eve is asked to do the same without K. Specific training schedule, loss functions, can be found in the code.

Bitwise Function Networks

In an attempt to learn more standardized symmetric key encryption operations, such as the One-Time Pad, we have created a network architecture that is localized to be element-wise or "Bitwise" among the inputs.

Bitwise Function Network

Purely Adversarial Neural Cryptography

In purely adversarial neural cryptography, we explore the capacity for Neural Networks to be capable in detecting broken encryption. We format this goal as one of several games, in the hope to allign with general cryptographic techniques and approaches.

Setup

After cloning this repository, setup a python virtual environment. This can be done with

source setup

this can also be used after initially setting up the environment to activate the virtual environment.

Project Structure

The project is structured in the following fashion.

.
+-- _setup
+-- _bin
|   +-- this includes binary files like weights,
|      cached data files, or visualizations
+-- _data
|   +-- data.py
|        +-- data generation programs 
+-- _genneral
|        +-- general software like custom keras layers,
|            utility functions, etc.
+-- _models
|   +-- code that builds, trains, and visualizes keras
+-- assets
|   +-- other assets (like pictures)

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