Therapy of Upper Limbs By Means of Virtual Reality Technologies

[1] Clinica orthopedic: What is rehabilitation and why it is important for a patient, cit 04/2021, url: https://clinicaorthopedica.sk/co-je-rehabilitacia-apreco-je-prepacienta-dolezita. Search in Google Scholar

[2] BEKELE, M. K. ‒ PIERDICCA, R. ‒ FRONTONI, E. ‒ MALINVERNI, E. S. ‒ GAIN, J.: “A survey of augmented, virtual, and mixed reality for cultural heritage, “Journal on Computing and Cultural Heritage (JOCCH), vol. 11, no. 2,pp. 1–36, 2018.10.1145/3145534 Search in Google Scholar

[3] RÍOS, A. P. ‒ CALLAGHAN, V. ‒ GARDNER, M. ‒ ALHADDAD, M. J.: “Using mixed-reality to develop smart environments,” pp. 182–189, 2014. Search in Google Scholar

[4] KHAN, O. ‒ AHMED, I. ‒ COTTINGHAM, J. ‒ RAHHAL, M. ‒ ARVANITIS, T. N. et al.: Timing and correction of stepping movements with a virtual reality avatar., 2020, PLOS ONE 15(2): e0229641. https://doi.org/10.1371/journal.pone.022964110.1371/journal.pone.0229641704830732109252 Search in Google Scholar

[5] SAPKAROSKI, D. ‒ BAIRD, M. ‒ MCINERNEY, J. ‒ DIMMOCK, M. R.: “The implementation of a haptic feedback virtual reality simulation clinic with dynamic patient interaction and communication for medical imaging students, “Journal of medical radiation sciences, vol. 65, no. 3, pp. 218–225, 2018.10.1002/jmrs.288611972630006966 Search in Google Scholar

[6] LOPES, D. S. ‒ JORGE, J. A.: “Extending medical interfaces towards virtual reality and augmented reality, “Annals of Medicine, vol. 51, no. sup1,pp. 29–29, 2019.10.1080/07853890.2018.1560068 Search in Google Scholar

[7] NISSLER, C. ‒ NOWAK, M. ‒ CONNAN, M. ‒ BÜTTNER, S. ‒ VOGEL, J. ‒ KOSSYK, I. ‒ C.MÁRTON, Z. ‒ CASTELLINI, C.: “Vita—an everyday virtual reality setup for prosthetics and upper-limb rehabilitation, “Journal of neural engineering, vol. 16, no. 2, p. 026039, 2019. Search in Google Scholar

[8] CHEN, D. ‒ LIU, H. ‒ REN, Z.: “Application of wearable device htc vive inupper limb rehabilitation training,” pp. 1460–1464, 2018. Search in Google Scholar

[9] WU, X. ‒ LIU, H. ‒ ZHANG, J. ‒ CHEN, W.: “Virtual reality training system for upper limb rehabilitation,” pp. 1969–1974, 2019. Search in Google Scholar

[10] ELOR, A. ‒ TEODORESCU, M. ‒ KURNIAWAN, S.: “Project star catcher: A novel immersive virtual reality experience for upper limb rehabilitation,” ACM Transactions on Accessible Computing (TACCESS), vol. 11, no. 4, pp. 1–25, 2018.10.1145/3265755 Search in Google Scholar

[11] BECKER, S. ‒ CHAPLE, M. ‒ FREESE, T. ‒ HAGLE, H. ‒ HENRY, M. ‒ KOUTSENOK, I. ‒ KROM, L. ‒ MARTIN, R. ‒ MOLFENTER, T. ‒ POWELL, K. et al.: “Virtual reality forbehavioral health workforce development in the era of covid-19,”Journalof Substance Abuse Treatment, p. 108157, 2020. Search in Google Scholar

[12] PEDRAM, S. ‒ PALMISANO, S. ‒ PEREZ, P. ‒ MURSIC, R. ‒ FARRELLY, M.: “Examiningthe potential of virtual reality to deliver remote rehabilitation,”Computersin Human Behavior, vol. 105, p. 106223, 2020. Search in Google Scholar

[13] SEO, D. ‒ YOO, B. ‒ KO, H.: “Webizing collaborative interaction space forcross reality with various human interface devices,” pp. 1–8, 2018.10.1145/3208806.3208808 Search in Google Scholar

[14] GIL-GÓMEZ, J. A. ‒ LOZANO-QUILIS, J. A. ‒ GIL-GÓMEZ, H.: Virtual Reality System for Multiple Sclerosis Rehabilitation using KINECT. cit.: 05/2021, url: http://rehab-workshop.org/2013/papers/136696042743759.pdf.10.4108/icst.pervasivehealth.2013.252208 Search in Google Scholar

[15] GestureTek. “Irex is gesturetek health’s flagship product for the healthcare arena.” Cit.: 06/2021, url: http://www.gesturetekhealth.com/products/irex. Search in Google Scholar

[16] CIMROVÁ, B. ‒ FARKAŠ, I. ‒ ROSIPAL, R.: “An usage of brain-computer interface during neurorehabilitation: review of actual state.” Kognícia a umelý život 14 (2014). Search in Google Scholar

[17] ROSIPAL, R.: Brain-computer interface with robot-assisted training for rehabilitation (BCI-RAS). url: http://aiolos.um.savba.sk/~roman/rrLab/projects.html. Search in Google Scholar

[18] HUDÁK, M. ‒ SIVÝ, M.: Web-based collaborative virtual environments to support cross-platform access, In: Poster 2019 International student scientific conference, Prague, 2019, pp.178-182. Search in Google Scholar

[19] DEMERS, D. ‒ KREUTZ-DELGADO, K.: “4 -inverse kinematics of dextrous manipulators,” in Neural Systems for Robotics, O. Omidvar and P. van der Smagt, Eds. Boston: Academic Press, 1997, pp. 75–116. [Online]. Available: https://www.sciencedirect.com/science/article/pii/B978008092509750008710.1016/B978-0-08-092509-7.50008-7 Search in Google Scholar

[20] BOWER, T.: Inverse kinematics. [Online]. Available: http://faculty.salina.k-state.edu/tim/roboticssg/Armrobots/inverseKin.html Search in Google Scholar