HEALTHeBIKES - Smart E-Bike Prototype for Controlled Exercise in Telerehabilitation Programs

Patrick Mayr; Markus Falgenhauer; Robert Modre-Osprian; Peter Hofmann; Heimo Traninger; Michael Rath; Günter Schreier

doi:10.3233/978-1-61499-858-7-307

HEALTHeBIKES - Smart E-Bike Prototype for Controlled Exercise in Telerehabilitation Programs

Patrick Mayr, Markus Falgenhauer, Robert Modre-Osprian, Peter Hofmann, Heimo Traninger, Michael Rath, Günter Schreier

Digital Health Information Systems

Research output: Chapter in Book or Conference Proceedings › Conference Proceedings without Presentation › peer-review

Abstract

E-Bikes in telerehabilitation programs could be a new intervention for more sustainable rehabilitation results. The aim is to design and build a prototype of an E-Bike usable for rehabilitation - a HEALTHeBIKE. It should avoid overexercising, work independently of the environment and it should enable cycling in a group despite different reference exercise intensities. To achieve these goals, requirements for this system architecture have been identified. A system architecture including an Arduino microcontroller, an Android smartphone and a telemonitoring platform was presented. A power output regulated proportional-integral controller to adjust the motor assistance has been implemented. A feasibility study with two subjects cycling in a group was performed. Seven test rides on varying terrain (flat, hilly, mountainous and uphill) with the same and different exercise intensities were completed. The mean power output was close to or below the target power output of the cyclist for all test rides with a maximal error of 6.7 % above and 27.6 % below the target. Although the exercise intensities of the two subjects were clearly different, cycling in a group was possible without over-exercising.

Original language	English
Title of host publication	Health Informatics meets eHealth - Proceedings of the eHealth2018 conference
Publisher	IOS Press
Pages	307-313
Number of pages	7
Volume	248
DOIs	https://doi.org/10.3233/978-1-61499-858-7-307
Publication status	Published - 2018

Research Field

Exploration of Digital Health

Keywords

E-Bike
electric bike
power output control
telerehabilitation

Access to Document

10.3233/978-1-61499-858-7-307Licence: Unspecified

Cite this

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title = "HEALTHeBIKES - Smart E-Bike Prototype for Controlled Exercise in Telerehabilitation Programs",

abstract = "E-Bikes in telerehabilitation programs could be a new intervention for more sustainable rehabilitation results. The aim is to design and build a prototype of an E-Bike usable for rehabilitation - a HEALTHeBIKE. It should avoid overexercising, work independently of the environment and it should enable cycling in a group despite different reference exercise intensities. To achieve these goals, requirements for this system architecture have been identified. A system architecture including an Arduino microcontroller, an Android smartphone and a telemonitoring platform was presented. A power output regulated proportional-integral controller to adjust the motor assistance has been implemented. A feasibility study with two subjects cycling in a group was performed. Seven test rides on varying terrain (flat, hilly, mountainous and uphill) with the same and different exercise intensities were completed. The mean power output was close to or below the target power output of the cyclist for all test rides with a maximal error of 6.7 % above and 27.6 % below the target. Although the exercise intensities of the two subjects were clearly different, cycling in a group was possible without over-exercising.",

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note = "29.8.2018: {\"A}nderung - Hinzugef{\"u}gt Hakerl "gedruckter Proceedings-Beitrag wurde einer Peer Review unterzogen" (aus e-mail Anton Dunzendorfer Di 28.08.2018 18:08) + Research Field auf Exploration of Digital Health ge{\"a}ndert",

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HEALTHeBIKES - Smart E-Bike Prototype for Controlled Exercise in Telerehabilitation Programs. / Mayr, Patrick ; Falgenhauer, Markus; Modre-Osprian, Robert et al.
Health Informatics meets eHealth - Proceedings of the eHealth2018 conference. Vol. 248 IOS Press, 2018. p. 307-313.

Research output: Chapter in Book or Conference Proceedings › Conference Proceedings without Presentation › peer-review

TY - CHAP

T1 - HEALTHeBIKES - Smart E-Bike Prototype for Controlled Exercise in Telerehabilitation Programs

AU - Mayr, Patrick

AU - Falgenhauer, Markus

AU - Modre-Osprian, Robert

AU - Hofmann, Peter

AU - Traninger, Heimo

AU - Rath, Michael

AU - Schreier, Günter

N1 - 29.8.2018: Änderung - Hinzugefügt Hakerl "gedruckter Proceedings-Beitrag wurde einer Peer Review unterzogen" (aus e-mail Anton Dunzendorfer Di 28.08.2018 18:08) + Research Field auf Exploration of Digital Health geändert

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AB - E-Bikes in telerehabilitation programs could be a new intervention for more sustainable rehabilitation results. The aim is to design and build a prototype of an E-Bike usable for rehabilitation - a HEALTHeBIKE. It should avoid overexercising, work independently of the environment and it should enable cycling in a group despite different reference exercise intensities. To achieve these goals, requirements for this system architecture have been identified. A system architecture including an Arduino microcontroller, an Android smartphone and a telemonitoring platform was presented. A power output regulated proportional-integral controller to adjust the motor assistance has been implemented. A feasibility study with two subjects cycling in a group was performed. Seven test rides on varying terrain (flat, hilly, mountainous and uphill) with the same and different exercise intensities were completed. The mean power output was close to or below the target power output of the cyclist for all test rides with a maximal error of 6.7 % above and 27.6 % below the target. Although the exercise intensities of the two subjects were clearly different, cycling in a group was possible without over-exercising.

KW - E-Bike

KW - electric bike

KW - power output control

KW - telerehabilitation

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KW - power output control

KW - telerehabilitation

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BT - Health Informatics meets eHealth - Proceedings of the eHealth2018 conference

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ER -

HEALTHeBIKES - Smart E-Bike Prototype for Controlled Exercise in Telerehabilitation Programs

Abstract

Research Field

Keywords

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