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Most Influential MOBICOM 2023 Paper · 2026-03 edition

AutoFed: Heterogeneity-Aware Federated Multimodal Learning for Robust Autonomous Driving

Tianyue Zheng; Ang Li; Zhe Chen; Hongbo Wang; Jun Luo

Venue
International Conference on Mobile Computing and Networking (MOBICOM) 2023
Recognition
Most Influential MOBICOM 2023 Paper (Rank No. 2)
Edition
2026-03
Impact factor
3
Certificate ID
bbe731e6b9abf906

Abstract

Object detection with on-board sensors (e.g., lidar, radar, and camera) is crucial to autonomous driving (AD), and these sensors complement each other in modalities. While crowdsensing may potentially exploit these sensors (of huge quantity) to derive more comprehensive knowledge, federated learning (FL) appears to be the necessary tool to reach this potential: it enables autonomous vehicles (AVs) to train machine learning models without explicitly sharing raw sensory data. However, the multimodal sensors introduce various data heterogeneity across distributed AVs (e.g., label quantity skews and varied modalities), posing critical challenges to effective FL. To this end, we present AutoFed as a heterogeneity-aware FL framework to fully exploit multimodal sensory data on AVs and thus enable robust AD. Specifically, we first propose a novel model leveraging pseudo labeling to avoid mistakenly treating unlabeled objects as the background. We also propose an autoencoder-based data imputation method to fill missing data modality (of certain AVs) with the available ones. To further reconcile the heterogeneity, we finally present a client selection mechanism based on client model similarities to improve training stability and convergence rate. Our experiments confirm that AutoFed substantially improves over status quo in both precision and recall, while demonstrating strong robustness to adverse weather.

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