Fully Quanvolutional Networks for Time Series Classification

Paper

Orka, Nabil Anan, Haque, Ehtashamul, Awal, Md Abdul and Moni, Mohammad Ali. 2025. "Fully Quanvolutional Networks for Time Series Classification." 31st ACM SIGKDD Conference on Knowledge Discovery and Data Mining (KDD '25). Toronto, Canada 03 - 07 Aug 2025 United States. Association for Computing Machinery (ACM). https://doi.org/10.1145/3711896.3736972
Paper/Presentation Title

Fully Quanvolutional Networks for Time Series Classification

Presentation TypePaper
AuthorsOrka, Nabil Anan, Haque, Ehtashamul, Awal, Md Abdul and Moni, Mohammad Ali
Journal or Proceedings TitleProceedings of the 31st ACM SIGKDD Conference on Knowledge Discovery and Data Mining (KDD '25)
Journal Citation2, pp. 2210-2221
Number of Pages12
Year2025
PublisherAssociation for Computing Machinery (ACM)
Place of PublicationUnited States
ISBN9798400714542
Digital Object Identifier (DOI)https://doi.org/10.1145/3711896.3736972
Web Address (URL) of Paperhttps://dl.acm.org/doi/10.1145/3711896.3736972
Web Address (URL) of Conference Proceedingshttps://dl.acm.org/doi/proceedings/10.1145/3711896
Conference/Event31st ACM SIGKDD Conference on Knowledge Discovery and Data Mining (KDD '25)
Event Details
Rank
A
Event Details
31st ACM SIGKDD Conference on Knowledge Discovery and Data Mining (KDD '25)
Parent
ACM International Conference on Knowledge Discovery and Data Mining
Delivery
In person
Event Date
03 to end of 07 Aug 2025
Event Location
Toronto, Canada
Event Venue
Toronto Convention Centre
Event Web Address (URL)
Abstract

Despite the advancements in quantum convolution or quanvolution, challenges persist in making quanvolution scalable, efficient, and applicable to multi-dimensional data. Existing quanvolutional networks heavily rely on classical layers, with minimal quantum involvement due to inherent limitations in current quanvolution algorithms. Moreover, the application of quanvolution in the domain of 1D data remains largely unexplored. To address these limitations, we propose a new quanvolution algorithm-Quanv1D-capable of processing arbitrary-channel 1D data, handling variable kernel sizes, and generating a customizable number of feature maps, along with a classification network-fully quanvolutional network (FQN)-built solely using Quanv1D layers. Quanv1D is inspired by the classical Conv1D and stands out from the quanvolution literature by being fully trainable, modular, and freely scalable with a self-regularizing feature. To evaluate FQN, we tested it on 20 UEA and UCR time series datasets, both univariate and multivariate, and benchmarked its performance against state-of-the-art convolutional models (both quantum and classical). We found FQN to outperform all compared models in terms of average accuracy while using significantly fewer parameters. Additionally, to assess the viability of FQN on real hardware, we conducted a shot-based analysis across all the datasets to simulate statistical quantum noise and found our model robust and equally efficient.

Keywordsquanvolution; time series; quantum deep learning
Contains Sensitive ContentDoes not contain sensitive content
ANZSRC Field of Research 2020461103. Deep learning
Byline AffiliationsUniversity of Queensland
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