nach oben

Erschienen in:

2018 | OriginalPaper | Buchkapitel

5. Biofeedback Systems in Sport and Rehabilitation

verfasst von : Anton Kos, Anton Umek

Erschienen in: Biomechanical Biofeedback Systems and Applications

Verlag: Springer International Publishing

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config

KI-gestützte Suche

Aus

Abstract

This chapter studies the main challenges of biofeedback systems in sport and rehabilitation. The stress is on real-time systems with concurrent feedback. General properties of sensing, with examples of optical and inertial sensor based motion capture systems, are presented. The most important sensor properties and limitations are discussed. Experimental examples for sensor accuracy and sampling rate are presented. Two different implementations of biofeedback system, compact and distributed, are used to study the challenges in sensor signal and data processing. Communication within the feedback loop elements is explained; the emphasis is on relations between the channel transmission parameters that have the main influence on the transmission delay. A brief attention through examples is given to the communication technologies used in biofeedback systems. Special focus is given on feedback loop delays that are studied in relation to the human reaction time. Concurrent biofeedback systems with real-time augmented feedback, that are needed and required in many sports and rehabilitation, are presented at the end. Communication and processing are identified as two main obstacles for high-performance real-time biofeedback systems.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Vorheriges Kapitel Biofeedback System Architectures

Nächstes Kapitel Performance Limitations of Biofeedback System Technologies

Baca A, Dabnichki P, Heller M, Kornfeind P (2009) Ubiquitous computing in sports: a review and analysis. J Sports Sci 27(12):1335–1346CrossRef

Cavallari R, Martelli F, Rosini R, Buratti C, Verdone R (2014) A survey on wireless body area networks: technologies and design challenges. IEEE Commun Surv Tutor 16(3):1635–1657CrossRef

Chambers R, Gabbett TJ, Cole MH, Beard A (2015) The use of wearable microsensors to quantify sport-specific movements. Sports Med 45(7):1065–1081CrossRef

Diaz KM, Krupka DJ, Chang MJ, Peacock J, Ma Y, Goldsmith J, … Davidson KW (2015). Fitbit®: an accurate and reliable device for wireless physical activity tracking. Int J Cardiol 185:138–140CrossRef

Đorđević S, Stančin S, Meglič A, Milutinović V, Tomažič S (2011) Mc sensor - a novel method for measurement of muscle tension. Sensors 11(10):9411–9425CrossRef

FlexiForce force sensors (2018) https://www.tekscan.com/product-group/embedded-sensing/force-sensors. Accessed 10 June 2018

Ghasemzadeh H, Ostadabbas S, Guenterberg E, Pantelopoulos A (2013) Wireless medical-embedded systems: A review of signal-processing techniques for classification. IEEE Sens J 13(2):423–437CrossRef

Giggins OM, Persson UM, Caulfield B (2013) Biofeedback in rehabilitation. J Heuroengineering Rehabil 10(1):60CrossRef

Guna J, Jakus G, Pogačnik M, Tomažič S, Sodnik J (2014) An analysis of the precision and reliability of the leap motion sensor and its suitability for static and dynamic tracking. Sensors 14(2):3702–3720CrossRef

Human Reaction Time (1970–1979) The great soviet encyclopedia, 3rd edn. The Gale Group, Inc

IEEE 802.11 standards (2018) http://standards.ieee.org/about/get/802/802.11.html. Accessed 12 June 2018

Jain A, Bansal R, Kumar A, Singh KD (2015) A comparative study of visual and auditory reaction times on the basis of gender and physical activity levels of medical first year students. Int J Appl Basic Med Res 5(2):124CrossRef

Josefsson T (2002) U.S. Patent No. 6,437,820. Washington, DC: U.S. Patent and Trademark Office

Lauber B, Keller M (2014) Improving motor performance: Selected aspects of augmented feedback in exercise and health. Eur J Sport Sci 14(1):36–43CrossRef

Lee JB, Ohgi Y, James DA (2012) Sensor fusion: let’s enhance the performance of performance enhancement. Proc Eng 34:795–800CrossRef

Li RT, Kling SR, Salata MJ, Cupp SA, Sheehan J, Voos JE (2016) Wearable performance devices in sports medicine. Sports Health 8(1):74–78CrossRef

Liebermann DG, Katz L, Hughes MD, Bartlett RM, McClements J, Franks IM (2002) Advances in the application of information technology to sport performance. J Sports Sci 20(10):755–769CrossRef

Min JK, Choe B, Cho SB (2010) A selective template matching algorithm for short and intuitive gesture UI of accelerometer-builtin mobile phones. In: 2010 Second world congress on nature and biologically inspired computing (NaBIC), pp 660–665. IEEE

Motion Capture System (2018) http://www.qualisys.com. Accessed 10 June 2018

Nilsson L (2011) QTM Real-time Server Protocol Documentation Version 1.9. http://qualisys.github.io/rt-protocol/. Accessed 10 Sept 2015

Pain MT, Hibbs A (2007) Sprint starts and the minimum auditory reaction time. J Sports Sci 25(1):79–86CrossRef

Poon CC, Lo BP, Yuce MR, Alomainy A, Hao Y (2015) Body sensor networks: In the era of big data and beyond. IEEE Rev Biomed Eng 8:4–16CrossRef

Schneider J, Börner D, Van Rosmalen P, Specht M (2015) Augmenting the senses: a review on sensor-based learning support. Sensors 15(2):4097–4133CrossRef

Senel O, Eroglu H (2006) Correlation between reaction time and speed in elite soccer players. Age 21:3–32

Seshadri DR, Drummond C, Craker J, Rowbottom JR, Voos JE (2017) Wearable devices for sports: new integrated technologies allow coaches, physicians, and trainers to better understand the physical demands of athletes in real time. IEEE Pulse 8(1):38–43CrossRef

Shimmer3 IMU Unit (2018). http://www.shimmersensing.com/products/shimmer3-imu-sensor. Accessed 10 June 2018

Sigrist R, Rauter G, Riener R, Wolf P (2013) Augmented visual, auditory, haptic, and multimodal feedback in motor learning: a review. Psychon Bull Rev 20(1):21–53CrossRef

ST Microelectronics. (2010). MEMS motion sensor: ultra-stable three-axis digital output gyroscope, L3G4200D Specifications. ST Microelectronics

Takacs J, Pollock CL, Guenther JR, Bahar M, Napier C, Hunt MA (2014) Validation of the Fitbit One activity monitor device during treadmill walking. J Sci Med Sport 17(5):496–500CrossRef

The Monitoring System of Choice for Elite Sport (2018) https://www.catapultsports.com/products. Accessed 10 June 2018

The Xsens wearable motion capture solutions (2018) https://www.xsens.com/products/xsens-mvn/. Accessed 10 June 2018

Tucker WJ, Bhammar DM, Sawyer BJ, Buman MP, Gaesser GA (2015) Validity and reliability of Nike + Fuelband for estimating physical activity energy expenditure. BMC rts Sci Med Rehabil 7(1):14CrossRef

Umek A, Kos A (2016) The role of high performance computing and communication for real-time biofeedback in sport. In: Mathematical problems in engineering, 2016CrossRef

Umek A, Tomažič S, Kos A (2015) Wearable training system with real-time biofeedback and gesture user interface. Pers Ubiquit Comput 19(7):989–998CrossRef

Windolf M, Götzen N, Morlock M (2008) Systematic accuracy and precision analysis of video motion capturing systems—exemplified on the Vicon-460 system. J Biomech 41(12):2776–2780CrossRef

Yurtman A, Barshan B (2014) Automated evaluation of physical therapy exercises using multi-template dynamic time warping on wearable sensor signals. Comput Methods Programs Biomed 117(2):189–207CrossRef

Titel: Biofeedback Systems in Sport and Rehabilitation
verfasst von: Anton Kos
Anton Umek
Verlag: Springer International Publishing
Buch: Biomechanical Biofeedback Systems and Applications
Print ISBN: 978-3-319-91348-3

Electronic ISBN: 978-3-319-91349-0

Copyright-Jahr: 2018
DOI: https://doi.org/10.1007/978-3-319-91349-0_5

Neuer Inhalt

Bildnachweise

Smart-Manufacturing Dashboard Banner/© AdobeStock_583269095, VDI-Icon, Profil Icon, inhalt2, Springer Professional Modul/© Springer Fachmedien Wiesbaden GmbH, Sustainability in Finance_2024/© Robert Kneschke / stock.adobe.com, Search Icon, Banner Hanser, Unternehmensnachfolge/© Ulrich/stock.adobe.com, Dirk Wolters/© Netec GmbH, NPL Kreditzweitmarktgesetz/© Good_Stock / Getty Images / iStock, Zeitschrift Wissensmanagement Cover, PatentFit-Logo/© Springer Fachmedien Wiesbaden GmbH, Sustainibility Finance/© Robert Kneschke / stock.adobe.com / Springer Fachmedien Wiesbaden GmbH, Zukunftswerkstatt Sales Excellence 2024/© AndreyPopov / Getty Images / iStock, 2023_Antrieb/© supervisuell

Springer Professional

Abstract

Bitte loggen Sie sich ein, um Zugang zu Ihrer Lizenz zu erhalten.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Neuer Inhalt

Bitte loggen Sie sich ein, um Zugang zu Ihrer Lizenz zu erhalten.

Bitte loggen Sie sich ein, um Zugang zu Ihrer Lizenz zu erhalten.