An augmented reality home-training system based on the mirror training and imagery approach

Trojan J, Diers M, Fuchs X, Bach F, Bekrater-Bodmann R, Foell J, Kamping S, Rance M, Maaß H, Flor H (2013)
Behavior Research Methods 46(3): 634-640.

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Zeitschriftenaufsatz | Veröffentlicht | Englisch
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Zeitschriftentitel
Behavior Research Methods
Band
46
Zeitschriftennummer
3
Seite
634-640
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Trojan J, Diers M, Fuchs X, et al. An augmented reality home-training system based on the mirror training and imagery approach. Behavior Research Methods. 2013;46(3):634-640.
Trojan, J., Diers, M., Fuchs, X., Bach, F., Bekrater-Bodmann, R., Foell, J., Kamping, S., et al. (2013). An augmented reality home-training system based on the mirror training and imagery approach. Behavior Research Methods, 46(3), 634-640. doi:10.3758/s13428-013-0412-4
Trojan, J., Diers, M., Fuchs, X., Bach, F., Bekrater-Bodmann, R., Foell, J., Kamping, S., Rance, M., Maaß, H., and Flor, H. (2013). An augmented reality home-training system based on the mirror training and imagery approach. Behavior Research Methods 46, 634-640.
Trojan, J., et al., 2013. An augmented reality home-training system based on the mirror training and imagery approach. Behavior Research Methods, 46(3), p 634-640.
J. Trojan, et al., “An augmented reality home-training system based on the mirror training and imagery approach”, Behavior Research Methods, vol. 46, 2013, pp. 634-640.
Trojan, J., Diers, M., Fuchs, X., Bach, F., Bekrater-Bodmann, R., Foell, J., Kamping, S., Rance, M., Maaß, H., Flor, H.: An augmented reality home-training system based on the mirror training and imagery approach. Behavior Research Methods. 46, 634-640 (2013).
Trojan, Jörg, Diers, Martin, Fuchs, Xaver, Bach, Felix, Bekrater-Bodmann, Robin, Foell, Jens, Kamping, Sandra, Rance, Mariela, Maaß, Heiko, and Flor, Herta. “An augmented reality home-training system based on the mirror training and imagery approach”. Behavior Research Methods 46.3 (2013): 634-640.

6 Zitationen in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

Restoring movement representation and alleviating phantom limb pain through short-term neurorehabilitation with a virtual reality system.
Osumi M, Ichinose A, Sumitani M, Wake N, Sano Y, Yozu A, Kumagaya S, Kuniyoshi Y, Morioka S., Eur J Pain 21(1), 2017
PMID: 27378656
Optical Myography: Detecting Finger Movements by Looking at the Forearm.
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A study of the effect of visual depth information on upper limb movement by use of measurement of smoothness.
Kato N, Tanaka T, Sugihara S, Shimizu K, Kudo N., J Phys Ther Sci 28(4), 2016
PMID: 27190441
[Chronic pain : Perception, reward and neural processing].
Becker S, Diers M., Schmerz 30(5), 2016
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Transforming Experience: The Potential of Augmented Reality and Virtual Reality for Enhancing Personal and Clinical Change.
Riva G, Baños RM, Botella C, Mantovani F, Gaggioli A., Front Psychiatry 7(), 2016
PMID: 27746747
Efficacy of progressive muscle relaxation, mental imagery, and phantom exercise training on phantom limb: a randomized controlled trial.
Brunelli S, Morone G, Iosa M, Ciotti C, De Giorgi R, Foti C, Traballesi M., Arch Phys Med Rehabil 96(2), 2015
PMID: 25450123

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