SONAR Web: A Platform-Agnostic Framework for Real-Time Decentralized Learning Across Heterogeneous Edge Clients

Author(s)

Yuan, Joyce; Le, Brian; Le, Kathryn; Shi, Yichuan; Singh, Abhishek; Sharma, Rishi; Patricio, Angel; Raskar, Ramesh; ... Show more Show less

Abstract

Most federated learning (FL) frameworks assume reliable networks and homogeneous devices, limiting their applicability in mobile and edge environments where connectivity is intermittent and devices are highly heterogeneous. We introduce SONAR Web, an open-source framework for fully decentralized, cross-platform collaborative learning between browsers, servers, tablets, and smartphones. SONAR Web decouples the learning protocol from the underlying client platform through a platform-agnostic configuration interface—enabling Python, JavaScript, and mobile clients to seamlessly interoperate in real time. By combining peer-to-peer RTC protocols with communication-efficient techniques from FL, SONAR Web supports privacy-preserving training without centralized orchestration. We demonstrate SONAR Web's robustness through deployments on real-world devices and networks, showing resilience under heterogeneous network conditions and resource variability. SONAR Web provides a unified, language-agnostic interface for decentralized learning, enabling seamless collaboration across heterogeneous devices and runtimes—advancing scalable, inclusive, and real-time model training at the mobile and edge frontier.

Description

FLEdge-AI ’25, November 4-8, 2025, Hong Kong, China

Date issued

2025-12-02

URI

https://hdl.handle.net/1721.1/164523

Department

Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science
Program in Media Arts and Sciences (Massachusetts Institute of Technology)

Publisher

ACM|Federated Learning and Edge AI for Privacy and Mobility

Citation

Joyce Yuan, Brian Le, Kathryn Le, Yichuan Shi, Abhishek Singh, Rishi Sharma, Angel Patricio, and Ramesh Raskar. 2025. SONAR Web: A Platform-Agnostic Framework for Real-Time Decentralized Learning Across Heterogeneous Edge Clients. In Proceedings of the Federated Learning and Edge AI for Privacy and Mobility (FLEdge-AI '25). Association for Computing Machinery, New York, NY, USA, 52–58.

Version: Final published version

ISBN

979-8-4007-1976-9