A Sensing Dataset Protocol for Benchmarking and Multi-Task Wireless Sensing

• URL: http://arxiv.org/abs/2512.12180v1
• Date: Sat, 13 Dec 2025 05:01:30 GMT
• Title: A Sensing Dataset Protocol for Benchmarking and Multi-Task Wireless Sensing
• Authors: Jiawei Huang, Di Zhang, Yuanhao Cui, Xiaowen Cao, Tony Xiao Han, Xiaojun Jing, Christos Masouros,
• Abstract summary: We propose the Sensing dataset Protocol (SDP), a protocol-level specification and benchmark framework for large-scale wireless sensing.<n>SDP defines how heterogeneous wireless signals are mapped into a unified perception data-block schema.<n>A unified benchmark is established for detection, recognition, and vital-sign estimation with consistent preprocessing, training, and evaluation.
• Score: 45.99328292838584
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Wireless sensing has become a fundamental enabler for intelligent environments, supporting applications such as human detection, activity recognition, localization, and vital sign monitoring. Despite rapid advances, existing datasets and pipelines remain fragmented across sensing modalities, hindering fair comparison, transfer, and reproducibility. We propose the Sensing Dataset Protocol (SDP), a protocol-level specification and benchmark framework for large-scale wireless sensing. SDP defines how heterogeneous wireless signals are mapped into a unified perception data-block schema through lightweight synchronization, frequency-time alignment, and resampling, while a Canonical Polyadic-Alternating Least Squares (CP-ALS) pooling stage provides a task-agnostic representation that preserves multipath, spectral, and temporal structures. Built upon this protocol, a unified benchmark is established for detection, recognition, and vital-sign estimation with consistent preprocessing, training, and evaluation. Experiments under the cross-user split demonstrate that SDP significantly reduces variance (approximately 88%) across seeds while maintaining competitive accuracy and latency, confirming its value as a reproducible foundation for multi-modal and multitask sensing research.

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