Neurorehabilitation Wetenschap

Publicaties

Motor Imagery ‌ | Virtual Reality | Neurorehabilitation with BCI | Functional electrical stimulation ‌| Robotic rehabilitation

Irimia, D.C., Ortner, R., Poboroniuc, M.S., Ignat, B.E. and Guger, C., 2018. High classification accuracy of a motor imagery based brain-computer interface for stroke rehabilitation training. Frontiers in Robotics and AI, 5, p.130.‌ Motor Imagery‌ | Virtual Reality‌ | Neurorehabilitation with BCI‌ | Functional electrical stimulation

Guger, C., Millán, J.D.R., Mattia, D., Ushiba, J., Soekadar, S.R., Prabhakaran, V., Mrachacz-Kersting, N., Kamada, K. and Allison, B.Z., 2018. Brain-computer interfaces for stroke rehabilitation: summary of the 2016 BCI Meeting in Asilomar. Brain-Computer Interfaces, 5(2-3), pp.41-57.‌ Motor Imagery‌ | Virtual Reality‌ | Neurorehabilitation with BCI‌ | Functional electrical stimulation

Irimia, D. C., Cho, W., Ortner, R., Allison, B. Z., Ignat, B. E., Edlinger, G., & Guger, C. (2017). Brain‐computer interfaces with multi‐sensory feedback for stroke rehabilitation: a case study. Artificial organs, 41(11), E178-E184.‌ Motor Imagery‌ | Virtual Reality‌ | Neurorehabilitation with BCI‌ | Functional electrical stimulation

Irimia D.C., Poboroniuc M.S., Ortner R., Allison B.Z., Guger C. (2017). Preliminary Results of Testing a BCI-Controlled FES System for Post-Stroke Rehabilitation. Proceedings of the 7th Graz Brain-Computer Interface Conference 2017, 204-209.‌ Motor Imagery‌ | Virtual Reality‌ | Neurorehabilitation with BCI‌ | Functional electrical stimulation

Cho W, Heilinger A, Xu R, Zehetner M, Schobesberger S, et al. (2017) Hemiparetic Stroke Rehabilitation Using Avatar and Electrical Stimulation Based on Non-invasive Brain Computer Interface. International Journal of Physical Medicine and Rehabilitation 5:411.‌ Motor Imagery‌ | Virtual Reality‌ | Neurorehabilitation with BCI‌ | Functional electrical stimulation

Huggins, J. E., Guger, C., Ziat, M., Zander, T. O., Taylor, D., Tangermann, M., … & Ruffini, G. (2017). Workshops of the Sixth International Brain–Computer Interface Meeting: brain–computer interfaces past, present, and future. Brain-Computer Interfaces, 1-34.‌ Motor Imagery‌ | Virtual Reality‌ | Neurorehabilitation with BCI‌ | Functional electrical stimulation

Cho W., Sabathiel N., Ortner R., Lechner A., Irimia D.C., Allison B.Z., Edlinger G. and Guger C., 2016. Paired Associative Stimulation using Brain-Computer Interfaces for Stroke Rehabilitation: A Pilot study. European Journal of Translational Myology, 26(3).‌ Motor Imagery‌ | Virtual Reality‌ | Neurorehabilitation with BCI‌ | Functional electrical stimulation

Xu R., Allison B. Z., Ortner R., Irimia D. C., Espinosa A., Lechner A., & Guger C. (2017). How Many EEG Channels Are Optimal for a Motor Imagery Based BCI for Stroke Rehabilitation?. In Converging Clinical and Engineering Research on Neurorehabilitation II (pp. 1109-1113). Springer International Publishing.‌ Motor Imagery‌ | Neurorehabilitation with BCI‌ | Functional electrical stimulation

D. C. Irimia, M. S. Poboroniuc and R. Ortner, “Improved Method to Perform FES & BCI Based Rehabilitation,” in The 4th IEEE International Conference on E-Health and Bioengineering, 2013.‌ Motor Imagery‌ | Functional electrical stimulation

Cho, W., Vidaurre, C., Hoffmann, U., Birbaumer, N., & Ramos-Murguialday, A. (2011, August). Afferent and efferent activity control in the design of brain computer interfaces for motor rehabilitation. In Engineering in Medicine and Biology Society, EMBC, 2011 Annual International Conference of the IEEE (pp. 7310-7315). IEEE.‌ Motor Imagery‌ | Functional electrical stimulation

Rupert Ortner, Alexander Lechner, Christoph Guger (2015): Stroke Rehabilitation assisted by a Brain-Computer Interface (BCI) and multimodal feedback: First results. In proccedings of the European Stroke Conference, 15.05.2015, Vienna, AT. Poster.‌ Motor Imagery‌ | Virtual Reality‌ | Neurorehabilitation with BCI‌

R. Ortner, D.-C. Irimia, C. Guger, and G. Edlinger, “Human Computer Confluence in BCI for Stroke Rehabilitation,” in Foundations of Augmented Cognition, Springer, 2015, pp. 304–312.‌ Motor Imagery‌ | Virtual Reality

C. Guger, C. Kapeller, R. Ortner, K. Kamada, Motor Imagery with Brain-Computer Interface Neurotechnology (pp. 61-79), in: Motor Imagery: Emerging Practices, Role in Physical Therapy and Clinical Implications, edited by B.M Garcia, 2015. ‌ Motor Imagery

R. Ortner, J. Scharinger, A. Lechner, C. Guger (2015). How many people can control a motor imagery based BCI using common spatial patterns?, in: 7th International IEEE/EMBS Conference on Neural Engineering (NER) 2015, pp. 202-205.‌ Motor Imagery

C. Guger, H. Ramoser and G. Pfurtscheller, “Real-Time EEG Analysis with Subject-Specific Spatial Patterns for a Brain–Computer Interface (BCI),” IEEE Trans. Rehab. Eng, vol. 8, pp. 447-456, 2000.‌ Motor Imagery

C. Guger, W. Harkam, C. Hertnaes, G. Pfurtscheller (1999). Prosthetic control by an EEG-based brain-computer interface (BCI). 5th European Conference for the Advancement of Assitive Technolgoy Düsseldorf, Germany, AAATE.‌ Motor Imagery

G. Pfurtscheller, C. Guger (1999). “Brain-computer communication system: EEG-based control of hand orthosis in a tetraplegic patient.” Acta Chir. Austriaca 31(159): pp. 23 – 25. Brain-computer communication system.‌ Motor Imagery

R. Ortner, D. Ram, A. Kollreider, H. Pitsch, J. Wojtowicz, and G. Edlinger, “Human-computer confluence for rehabilitation purposes after stroke,” in Virtual, Augmented and Mixed Reality. Systems and Applications, Springer, 2013, pp. 74–82.‌ Neurorehabilitation with BCI | Robotic rehabilitation

A. Ramos-Murguialday, D. Broetz, M. Rea, L. Läer, O. Yilmaz, F. L. Brasil, G. Liberati, M. R. Curado, E. Garcia-Cossio, A. Vyziotis, W. Cho, M. Agostini, E. Soares, S. Soekadar, A. Caria, L. G. Cohen, and N. Birbaumer, “Brain-machine-interface in chronic stroke rehabilitation: A controlled study.,” Ann Neurol. 2013, p. doi: 10.1002/ana.23879, 2013.‌ Robotic rehabilitation

K. Shindo, K. Kawashima and e. a. Ushiba, “Effects of neurofeedback training with an electroencephalogram-based brain-computer interface for hand paralysis in patients with chronic stroke: a preliminary case series study,” J Rehabil Med, pp. 951-957, 43(10) 2011.‌ Neurorehabilitation with BCI

J.C. Moreno, J. L. Pons, E. Gruenbacher, C. Guger (2010). BCI-driven stroke rehabilitation; the concept of the BETTER project..‌ Neurorehabilitation with BCI

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