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TRIPOD—A Treadmill Walking Dataset with IMU, Pressure-Distribution and Photoelectric Data for Gait Analysis

Author

Listed:
  • Justin Trautmann

    (Digital Health-Connected Healthcare, Hasso Plattner Institute, University of Potsdam, 14482 Potsdam, Germany)

  • Lin Zhou

    (Digital Health-Connected Healthcare, Hasso Plattner Institute, University of Potsdam, 14482 Potsdam, Germany)

  • Clemens Markus Brahms

    (Division of Training and Movement Sciences, University of Potsdam, 14469 Potsdam, Germany)

  • Can Tunca

    (NETLAB, Department of Computer Engineering, Bogazici University, Istanbul 34342, Turkey)

  • Cem Ersoy

    (NETLAB, Department of Computer Engineering, Bogazici University, Istanbul 34342, Turkey)

  • Urs Granacher

    (Division of Training and Movement Sciences, University of Potsdam, 14469 Potsdam, Germany)

  • Bert Arnrich

    (Digital Health-Connected Healthcare, Hasso Plattner Institute, University of Potsdam, 14482 Potsdam, Germany)

Abstract

Inertial measurement units (IMUs) enable easy to operate and low-cost data recording for gait analysis. When combined with treadmill walking, a large number of steps can be collected in a controlled environment without the need of a dedicated gait analysis laboratory. In order to evaluate existing and novel IMU-based gait analysis algorithms for treadmill walking, a reference dataset that includes IMU data as well as reliable ground truth measurements for multiple participants and walking speeds is needed. This article provides a reference dataset consisting of 15 healthy young adults who walked on a treadmill at three different speeds. Data were acquired using seven IMUs placed on the lower body, two different reference systems (Zebris FDMT-HQ and OptoGait), and two RGB cameras. Additionally, in order to validate an existing IMU-based gait analysis algorithm using the dataset, an adaptable modular data analysis pipeline was built. Our results show agreement between the pressure-sensitive Zebris and the photoelectric OptoGait system (r = 0.99), demonstrating the quality of our reference data. As a use case, the performance of an algorithm originally designed for overground walking was tested on treadmill data using the data pipeline. The accuracy of stride length and stride time estimations was comparable to that reported in other studies with overground data, indicating that the algorithm is equally applicable to treadmill data. The Python source code of the data pipeline is publicly available, and the dataset will be provided by the authors upon request, enabling future evaluations of IMU gait analysis algorithms without the need of recording new data.

Suggested Citation

  • Justin Trautmann & Lin Zhou & Clemens Markus Brahms & Can Tunca & Cem Ersoy & Urs Granacher & Bert Arnrich, 2021. "TRIPOD—A Treadmill Walking Dataset with IMU, Pressure-Distribution and Photoelectric Data for Gait Analysis," Data, MDPI, vol. 6(9), pages 1-19, August.
    • Handle: RePEc:gam:jdataj:v:6:y:2021:i:9:p:95-:d:622425
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    References listed on IDEAS

    as
    1. Lotem Kribus-Shmiel & Gabi Zeilig & Boris Sokolovski & Meir Plotnik, 2018. "How many strides are required for a reliable estimation of temporal gait parameters? Implementation of a new algorithm on the phase coordination index," PLOS ONE, Public Library of Science, vol. 13(2), pages 1-16, February.
    2. Shuozhi Yang & Qingguo Li, 2012. "IMU-based ambulatory walking speed estimation in constrained treadmill and overground walking," Computer Methods in Biomechanics and Biomedical Engineering, Taylor & Francis Journals, vol. 15(3), pages 313-322.
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    Cited by:

    1. Aleksandr Ometov & Joaquín Torres-Sospedra, 2022. "Measurements of User and Sensor Data from the Internet of Things (IoT) Devices," Data, MDPI, vol. 7(5), pages 1-3, April.
    2. Mateo Rico-Garcia & Juan Botero-Valencia & Ruber Hernández-García, 2022. "Vertical Jump Data from Inertial and Optical Motion Tracking Systems," Data, MDPI, vol. 7(8), pages 1-16, August.

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