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Hauptverfasser: He, Tianlang, Chang, Zhangyu, Chan, S. -H. Gary
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2507.03873
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author He, Tianlang
Chang, Zhangyu
Chan, S. -H. Gary
author_facet He, Tianlang
Chang, Zhangyu
Chan, S. -H. Gary
contents A Wi-Fi-enabled device, or simply Wi-Fi device, sporadically broadcasts probe request frames (PRFs) to discover nearby access points (APs), whether connected to an AP or not. To protect user privacy, unconnected devices often randomize their MAC addresses in the PRFs, known as MAC address randomization. While prior works have achieved accurate device counting under MAC address randomization, they typically rely on machine learning, resulting in inefficient deployment due to the time-consuming processes of data cleaning, model training, and hyperparameter tuning. To enhance deployment efficiency, we propose RateCount, an accurate, lightweight, and learning-free counting approach based on the rate at which APs receive PRFs within a window. RateCount employs a provably unbiased closed-form expression to estimate the device count time-averaged over the window and an error model to compute the lower bound of the estimation variance. We also demonstrate how to extend RateCount to people counting by incorporating a device-to-person calibration scheme. Through extensive real-world experiments conducted at multiple sites spanning a wide range of counts, we show that RateCount, without any deployment costs for machine learning, achieves comparable counting accuracy with the state-of-the-art learning-based device counting and improves previous people counting schemes by a large margin.
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publishDate 2025
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spellingShingle RateCount: Learning-Free Device Counting by Wi-Fi Probe Listening
He, Tianlang
Chang, Zhangyu
Chan, S. -H. Gary
Networking and Internet Architecture
Signal Processing
A Wi-Fi-enabled device, or simply Wi-Fi device, sporadically broadcasts probe request frames (PRFs) to discover nearby access points (APs), whether connected to an AP or not. To protect user privacy, unconnected devices often randomize their MAC addresses in the PRFs, known as MAC address randomization. While prior works have achieved accurate device counting under MAC address randomization, they typically rely on machine learning, resulting in inefficient deployment due to the time-consuming processes of data cleaning, model training, and hyperparameter tuning. To enhance deployment efficiency, we propose RateCount, an accurate, lightweight, and learning-free counting approach based on the rate at which APs receive PRFs within a window. RateCount employs a provably unbiased closed-form expression to estimate the device count time-averaged over the window and an error model to compute the lower bound of the estimation variance. We also demonstrate how to extend RateCount to people counting by incorporating a device-to-person calibration scheme. Through extensive real-world experiments conducted at multiple sites spanning a wide range of counts, we show that RateCount, without any deployment costs for machine learning, achieves comparable counting accuracy with the state-of-the-art learning-based device counting and improves previous people counting schemes by a large margin.
title RateCount: Learning-Free Device Counting by Wi-Fi Probe Listening
topic Networking and Internet Architecture
Signal Processing
url https://arxiv.org/abs/2507.03873