English

Conformal Distributed Remote Inference in Sensor Networks Under Reliability and Communication Constraints

Signal Processing 2025-02-25 v3 Information Theory Machine Learning math.IT

Abstract

This paper presents communication-constrained distributed conformal risk control (CD-CRC) framework, a novel decision-making framework for sensor networks under communication constraints. Targeting multi-label classification problems, such as segmentation, CD-CRC dynamically adjusts local and global thresholds used to identify significant labels with the goal of ensuring a target false negative rate (FNR), while adhering to communication capacity limits. CD-CRC builds on online exponentiated gradient descent to estimate the relative quality of the observations of different sensors, and on online conformal risk control (CRC) as a mechanism to control local and global thresholds. CD-CRC is proved to offer deterministic worst-case performance guarantees in terms of FNR and communication overhead, while the regret performance in terms of false positive rate (FPR) is characterized as a function of the key hyperparameters. Simulation results highlight the effectiveness of CD-CRC, particularly in communication resource-constrained environments, making it a valuable tool for enhancing the performance and reliability of distributed sensor networks.

Keywords

Cite

@article{arxiv.2409.07902,
  title  = {Conformal Distributed Remote Inference in Sensor Networks Under Reliability and Communication Constraints},
  author = {Meiyi Zhu and Matteo Zecchin and Sangwoo Park and Caili Guo and Chunyan Feng and Petar Popovski and Osvaldo Simeone},
  journal= {arXiv preprint arXiv:2409.07902},
  year   = {2025}
}

Comments

15 pages, 24 figures

R2 v1 2026-06-28T18:42:17.385Z