Skip to content

Privacy preserving targeted advertisement through Machine Learning prediction in confidential blockchain.

License

Notifications You must be signed in to change notification settings

palmenros/private-ads

Repository files navigation

Header

PrivAds

Privacy preserving targeted advertisement through Machine Learning prediction in Oasis confidential blockchain.

Table of Contents

About

PrivAds leverages the Oasis confidential blockchain and machine learning algorithms to serve targeted advertisements while prioritizing user privacy. Traditional advertising methods often compromise user data privacy, leading to concerns about data leaks and unauthorized access and selling of data. PrivAd addresses these concerns by ensuring that user data remains encrypted and anonymous throughout the ad-serving process. The advertisers in no moment have access to the user's private data, which is only used inside the confidential smart contract to serve personalized ads.

PrivAds employs a combination of smart contracts, decentralized storage solutions, and machine learning models to analyze user behavior and preferences without giving advertisers access to user's sensitive personal information.

Key features of PrivAds include:

  • Privacy-preserving targeted ads: The user's private data is fully processed inside a confidential smart contract executing in a Trusted Execution Environment. The advertisers have no access to the user's data, nor they know which user saw which ad, to prevent tracking.
  • Support for anti-fraud models: The confidential smart contract has access to all user information, so existing anti-fraud models can be implemented in the smart contract that keep the data confidential but protect the advertisers' interests.
  • On-chain ML: A simple on-chain KNN machine learning algorithm is run on-chain to match the user data with the available advertisements without disclosing private data. To reduce gas consumption, the dimensionality of the data is severely reduced.
  • Extremely low-dimensional word embeddings: In order to support text-based on-chain machine learning models while keeping gas usage at an acceptable level, we have used state-of-the-art word embeddings such as Word2Vec and reduced the output dimensionality from 300 dimensions to 2 dimensions by using t-SNE. This embedding is executed off-chain, and the on-chain KNN ML algorithm only needs to compute the distance between 2 dimensions, greatly reducing the computational complexity and enabling on-chain text-based ML algorithms.
  • User financial rewards: The user's get a financial reward when consuming targeted ads, sharing the ad revenue.
  • Transparent ad-serving process: Smart contracts govern the ad-serving process, providing transparency to both advertisers and users. The smart contract code is open source and can be audited by all parties, given both users and advertisers trust on it.
  • Advertiser cross-tracking protection: Thanks to the confidential smart contract, advertisers don't know which users saw their ads, as they could try to infer information from users that way. Instead, they can only see aggregated statistics about their ad campaign. Despite not having access to this information, they can still rely on the anti-fraud model, which does have access to private user data.
  • IPFS storage for ad-content: Only compact ad identifiers will be stored inside the blockchain to reduce on-chain storage size. The ad contents are stored in an IPFS storage (our prototype uses instead a simple Python static server). Existing privacy-preserving IPFS solutions can be leveraged to fetch the ad content with the given ID.
  • Opt-in participation: Users have control over their data and can choose to opt-in or opt-out of the targeted advertising program at any time.

By combining the power of confidential blockchain and machine learning, PrivAds aims to revolutionize the digital advertising industry by offering a more privacy-focused and user-centric approach to targeted advertising.

Repository structure

  • backend contains the example AdManager solidity contract, deployment and testing utils and CLI commands to interact with the smart contract.
  • frontend contains a Vue-based web application communicating with the backend smart contract.
  • ad_server contains the code for a Flask application that is used in the prototype to serve static ad content with a given ad URL. In the future, this will be stored in IPFS storage.
  • nlp contains the Python jupyter notebook code used for the Machine Learning word embedding dimensionality reduction.

Running, testing and deploying

First, install dependencies using pnpm:

pnpm install

Backend

Move to the backend folder and build smart contracts:

pnpm build

Start a Sapphire localnet by using Docker:

docker run -it -p8545:8545 -p8546:8546 ghcr.io/oasisprotocol/sapphire-localnet

Export the private key of a localnet account to deploy the smart contract:

export PRIVATE_KEY=0x...

Deploy the smart contract to that local network:

npx hardhat deploy --network sapphire-localnet

The deployed AdManager contract address will be reported. Remember it and store it inside the frontend folder's .env.development, for example:

VITE_MESSAGE_BOX_ADDR=0xCONTRACT_ADDRESS
VITE_NETWORK=0x5afd
VITE_WEB3_GATEWAY=http://localhost:8545

To execute a task from the command line to call the smart contract, explore backend/hardhat.config.ts for available tasks and pass the contract address when deployed. For example, for running task('example'):

npx hardhat example --network sapphire-localnet 0xCONTRACT_ADDRESS

Find tests under the backend/test/ directory. To run tests use the following command:

npx hardhat test

Frontend

First, run the flask static content ad server that returns the ad content for a given ad URL, by moving into ad_server and executing:

flask --app server.py run

After you compiled the backend, updated .env.development with the corresponding address and a chain ID, move to the frontend folder, compile and Hot-Reload frontend for Development:

pnpm dev

You can use one of the deployed test accounts and associated private key with MetaMask.

About

Privacy preserving targeted advertisement through Machine Learning prediction in confidential blockchain.

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published