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Inertial Measurement Units in Sport—2nd Edition

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A special issue of Sensors (ISSN 1424-8220). This special issue belongs to the section "Wearables".

Deadline for manuscript submissions: 30 November 2024 | Viewed by 1702

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Special Issue Editor

Dr. Robert Crowther

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Guest Editor

1. School of Behavioural and Health Sciences, Australian Catholic University, Brisbane 4014, Australia
2. UniSA Allied Health & Human Performance, University of South Australia, Adelaide 5001, Australia
Interests: biomechanics; motor control; variability of movement; non-linear dynamics
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Special Issue Information

Dear Colleagues,

There is a growing demand for ecologically valid, non-lab-based research on human movement. To meet this need, portable and cost-effective technologies have become pivotal. Inertial Measurement Units (IMUs) offer the flexibility required for real-world applications.

This Special Issue aims to showcase innovative research utilizing IMUs, exploring their reliability and validity, and elucidating methods for IMU-captured data analysis. By bridging the gap between laboratory studies and real-world scenarios, the goal is to facilitate a seamless transition for consumers, researchers, and sport scientists.

The key themes for this issue are innovative IMU applications, the reliability and validity of IMUs, data analysis methods, and practical implications and transitions.

Call for papers: Researchers are invited to contribute original studies, reviews, and methodological papers addressing the themes outlined above. Join us in unravelling the potential of IMUs and shaping the future of ecologically valid human movement research.

Dr. Robert Crowther
Guest Editor

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Published Papers (2 papers)

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Research

25 pages, 41909 KiB

Open AccessArticle

KARATECH: A Practice Support System Using an Accelerometer to Reduce the Preliminary Actions of Karate

by Kwangyun Kim, Shuhei Tsuchida, Tsutomu Terada and Masahiko Tsukamoto

Sensors 2024, 24(7), 2306; https://0-doi-org.brum.beds.ac.uk/10.3390/s24072306 - 5 Apr 2024

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Abstract

Kumite is a karate sparring competition in which two players face off and perform offensive and defensive techniques. Depending on the players, there may be preliminary actions (hereinafter referred to as “pre-actions”), such as pulling the arms or legs, lowering the shoulders, etc., just before a technique is performed. Since the presence of a pre-action allows the opponent to know the timing of the technique, it is important to reduce pre-actions in order to improve the kumite. However, it is difficult for beginners and intermediate players to accurately identify their pre-actions and to improve them through practice. Therefore, this study aims to construct a practice support system that enables beginners and intermediate players to understand their pre-actions. In this paper, we focus on the forefist punch, one of kumite’s punching techniques. We propose a method to estimate the presence or absence of a pre-action based on the similarity between the acceleration data of an arbitrary forefist punch and a previously prepared dataset consisting of acceleration data of the forefist punch without a pre-action. We found that the proposed method can estimate the presence or absence of a pre-action in an arbitrary forefist punch with an accuracy of 86%. We also developed KARATECH as a system to support the practice of reducing pre-actions using the proposed method. KARATECH shows the presence or absence of pre-actions through videos and graphs. The evaluation results confirmed that the group using KARATECH had a lower pre-action rate. Full article

(This article belongs to the Special Issue Inertial Measurement Units in Sport—2nd Edition)

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23 pages, 6546 KiB

Open AccessArticle

Distributed IMU Sensors for In-Field Dynamic Measurements on an Alpine Ski

by Leopold G. Beuken, Joshua L. Priest, Travis Hainsworth and J. Sean Humbert

Sensors 2024, 24(6), 1805; https://0-doi-org.brum.beds.ac.uk/10.3390/s24061805 - 11 Mar 2024

Viewed by 639

Abstract

Modern ski design is an inherently time-consuming process that involves an iterative feedback loop comprised of design, manufacturing and in-field qualitative evaluations. Additionally consumers can only rely on qualitative evaluation for selecting the ideal ski, and due to the variation in skier styles and ability levels, consumers can find it to be an inconsistent and expensive experience. We propose supplementing the design and evaluation process with data from in-field prototype testing, using a modular sensor array that can be ported to nearly any ski. This paper discusses a new distributed Inertial Measurement Unit (IMU) suite, including details regarding the design and operation, sensor validation experiments, and outdoor in-field testing results. Data are collected from a set of spatially distributed IMUs located on the upper surface of the ski. We demonstrate that this system and associated post-processing algorithms provide accurate data at a high rate (>700 Hz), enabling the measurement of both structural and rigid ski characteristics, and are robust to repetitive testing in outdoor winter conditions. Full article

(This article belongs to the Special Issue Inertial Measurement Units in Sport—2nd Edition)

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