MMODELYST
Papers/Sparse In-Network Learning via Shortest-Path Backpropagation and Finite-Rate Gating
PAP

Sparse In-Network Learning via Shortest-Path Backpropagation and Finite-Rate Gating

May 22, 2026

arXiv
Abstract

In-network learning (INL) trains distributed neural modules by exchanging latent activations and backpropagated errors over a communication graph. This letter proposes Dijkstra-pruned INL (D-INL), which removes non-tree links by retaining a capacity-aware shortest-path tree rooted at the fusion node. To balance sparsity and predictive information, local routing (or aggregation) is modeled as a finite-rate stochastic gate with rate $R_g=I(Z; T)$. We derive a rate-distortion-generalization bound and validate the method on a reproducible distributed-classification experiment, where D-INL reduces training exchange by $70.4\%$ while preserving accuracy within the standard deviation of dense INL. Adding finite-rate regularization further reduces the estimated latent rate by $45.7\%$ relative to unregularized Dijkstra INL.

Select text to highlight · click a highlight to remove · saved in this browser only
Authors
Mohammad Reza Deylam Salehi
Your notes (browser-local)
saved
arXiv:2605.23424