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EdgeMTSC: A Lightweight Large-Kernel ConvNet for Multivariate Time Series Classification

Authors
Zhou, XueyiLi, ZhenyuChae, Dong-Kyu
Issue Date
Mar-2026
Publisher
AAAI Press
Citation
Proceedings of the AAAI Conference on Artificial Intelligence, v.40, no.19, pp 16531 - 16539
Pages
9
Indexed
SCOPUS
Journal Title
Proceedings of the AAAI Conference on Artificial Intelligence
Volume
40
Number
19
Start Page
16531
End Page
16539
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212292
DOI
10.1609/aaai.v40i19.38693
ISSN
2159-5399
2374-3468
Abstract
In large-scale sensor networks, Multivariate Time Series Classification (MTSC) is a pivotal task for identifying events dependent on longitudinal data at the edge. However, existing methods focus on neither the inherent ability of convolutional networks to perceive subsequence features, nor the prolonged processing pipeline and the model deployment overhead brought by the highly parameterized models. To resolve these difficulties, we present EdgeMTSC, a lightweight large-kernel ConvNet for MTSC, which naturally extracts and learns features of diverse subsequences. Specifically, a novel module named Inter-channel Message Passing-driven Kernel Block (IMP-KB) is proposed, which maintains a learnable correlation matrix to propagate and merge inter-channel messages, and fuses miscellaneous patterns learned by parallel conv kernels of different sizes. EdgeMTSC sequences two modules of different receptive fields to aggregate local features using small kernels and study long-term representation provided by large kernels, respectively. For inference parameter reduction and accelerating inference without performance loss, the conv blocks in IMP-KBs are structurally reparameterizable. The performance of our model (76.2%) is benchmarked on 26 UEA MTSC datasets and is superior to the SOTA model (MPTSNet, 75%). At the same time, EdgeMTSC uses the fewest parameters and achieves the minimum inference time, applicable on any machine (8 devices ranging from large-scale distributed AI computing servers to resource-constrained edge devices) and in any application scenario.
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