CADRE: Customizable Assurance of Data Readiness in Privacy-Preserving Federated Learning
Abstract
Privacy-Preserving Federated Learning (PPFL) is a decentralized machine learning approach where multiple clients train a model collaboratively. PPFL preserves privacy and security of the client's data by not exchanging it. However, ensuring that data at each client is of high quality and ready for federated learning (FL) is a challenge due to restricted data access. In this paper, we introduce CADRE (Customizable Assurance of Data REadiness) for FL, a novel framework that allows users to define custom data readiness (DR) standards, metrics, rules, and remedies tailored to specific FL tasks. Our framework generates comprehensive DR reports based on the user-defined metrics, rules, and remedies to ensure datasets are optimally prepared for FL while preserving privacy. We demonstrate the framework's practical application by integrating it into an existing PPFL framework. We conducted experiments across six diverse datasets, addressing seven different DR issues. The results illustrate the framework's versatility and effectiveness in ensuring DR across various dimensions, including data quality, privacy, and fairness. This approach enhances the performance and reliability of FL models as well as utilizes valuable resources by identifying and addressing data-related issues before the training phase.