CaNRun: Non-Contact, Acoustic-based Cadence Estimation on Treadmills using Smartphones
Authors: 
Ziyi Xuan, Ming Liu, Jingping Nie, 
Minghui Zhao, Stephen Xia, 
Xiaofan JiangAuthors Info & Claims
Pages 272 - 277
Abstract
Running with a consistent cadence (number of steps per minute) is important for runners to help reduce risk of injury, improve running form, and enhance overall bio-mechanical efficiency. We introduce CaNRun, a non-contact and acoustic-based system that uses sound captured from a mobile device placed on a treadmill to predict and report running cadence. CaNRun obviates the need for runners to utilize wearable devices or carry a mobile device on their body while running on a treadmill. CaNRun leverages a long short-term memory (LSTM) network to extract steps observed from the microphone to robustly estimate cadence. Through an 8-person study, we demonstrate that CaNRun achieves cadence detection accuracy without calibration for individual users, which is comparable to the accuracy of the Apple Watch despite being non-contact.
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Published In
May 2023
419 pages
ISBN:9798400700491
DOI:10.1145/3576914
Copyright © 2023 ACM.
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Published: 09 May 2023
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CPS-IoT Week '23
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CPS-IoT Week '23: Cyber-Physical Systems and Internet of Things Week 2023
May 9 - 12, 2023
TX, San Antonio, USA
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