UniFi

IF 3.6 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies Pub Date : 2024-01-12 DOI:10.1145/3631429
Yan Liu, Anlan Yu, Leye Wang, Bin Guo, Yang Li, E. Yi, Daqing Zhang
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引用次数: 1

Abstract

In recent years, considerable endeavors have been devoted to exploring Wi-Fi-based sensing technologies by modeling the intricate mapping between received signals and corresponding human activities. However, the inherent complexity of Wi-Fi signals poses significant challenges for practical applications due to their pronounced susceptibility to deployment environments. To address this challenge, we delve into the distinctive characteristics of Wi-Fi signals and distill three pivotal factors that can be leveraged to enhance generalization capabilities of deep learning-based Wi-Fi sensing models: 1) effectively capture valuable input to mitigate the adverse impact of noisy measurements; 2) adaptively fuse complementary information from multiple Wi-Fi devices to boost the distinguishability of signal patterns associated with different activities; 3) extract generalizable features that can overcome the inconsistent representations of activities under different environmental conditions (e.g., locations, orientations). Leveraging these insights, we design a novel and unified sensing framework based on Wi-Fi signals, dubbed UniFi, and use gesture recognition as an application to demonstrate its effectiveness. UniFi achieves robust and generalizable gesture recognition in real-world scenarios by extracting discriminative and consistent features unrelated to environmental factors from pre-denoised signals collected by multiple transceivers. To achieve this, we first introduce an effective signal preprocessing approach that captures the applicable input data from noisy received signals for the deep learning model. Second, we propose a multi-view deep network based on spatio-temporal cross-view attention that integrates multi-carrier and multi-device signals to extract distinguishable information. Finally, we present the mutual information maximization as a regularizer to learn environment-invariant representations via contrastive loss without requiring access to any signals from unseen environments for practical adaptation. Extensive experiments on the Widar 3.0 dataset demonstrate that our proposed framework significantly outperforms state-of-the-art approaches in different settings (99% and 90%-98% accuracy for in-domain and cross-domain recognition without additional data collection and model training).
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UniFi
近年来,通过对接收信号和相应人类活动之间的复杂映射进行建模,人们致力于探索基于 Wi-Fi 的传感技术。然而,Wi-Fi 信号固有的复杂性给实际应用带来了巨大挑战,因为它们很容易受到部署环境的影响。为了应对这一挑战,我们深入研究了 Wi-Fi 信号的显著特征,并提炼出三个关键因素,可用于增强基于深度学习的 Wi-Fi 感知模型的泛化能力:1)有效捕捉有价值的输入,以减轻噪声测量的不利影响;2)自适应融合来自多个 Wi-Fi 设备的互补信息,以提高与不同活动相关的信号模式的可区分性;3)提取可泛化的特征,以克服不同环境条件(如位置、方向)下活动表征的不一致性。利用这些见解,我们设计了一种基于 Wi-Fi 信号的新型统一传感框架(称为 UniFi),并将手势识别作为一种应用来展示其有效性。UniFi 通过从多个收发器收集到的预先去噪信号中提取与环境因素无关的具有区分性和一致性的特征,在真实世界场景中实现了稳健且可通用的手势识别。为此,我们首先引入了一种有效的信号预处理方法,从嘈杂的接收信号中捕捉适用于深度学习模型的输入数据。其次,我们提出了一种基于时空跨视角注意力的多视角深度网络,它能整合多载波和多设备信号,以提取可区分的信息。最后,我们提出将互信息最大化作为正则化器,通过对比损失来学习环境不变表征,而不需要从未曾见过的环境中获取任何信号来进行实际适应。在 Widar 3.0 数据集上进行的大量实验表明,我们提出的框架在不同环境下的表现明显优于最先进的方法(在不额外收集数据和训练模型的情况下,域内和跨域识别的准确率分别为 99% 和 90%-98%)。
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来源期刊
Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies
Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies Computer Science-Computer Networks and Communications
CiteScore
9.10
自引率
0.00%
发文量
154
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