A.D. Ivanov1, A.Y. Tychkov2, O.S. Simakov3, A.K. Alimuradov4, A.N. Tychkova5, D.S. Chernyshov6, D.L. Ovchinnikov7, Z.M. Yuldashev8

1–7 Penza State University (Penza, Russia)

8 St. Petersburg State Electrotechnical University "LETI" (Saint Petersburg, Russia)

1 sailtothe54@Gmail.com, 2 tychkov-a@mail.ru, 3 zcsio@mail.ru, 4 alansapfir@yandex.ru, 5 tychkova-anna@mail.ru, 6 deniska_1980_13@mail.ru, 7 dmitry_ovch@mail.ru, 8 yuld@mail.ru

Problem statement. Assessing the quality of physiotherapeutic stimulation of virtual reality is complicated by the use of a classical device for recording brain parameters, such as an encephalograph, due to its significant overall dimensions. The work presents a system that includes a mobile device for recording brain parameters, a virtual reality helmet and wireless data transfer interfaces.

Work purpose. Assessing the quality of physiotherapeutic stimulation of virtual reality is complicated by the use of a classical device for recording brain parameters, such as an encephalograph, due to its significant overall dimensions. The work presents a system that includes a mobile device for recording brain parameters, a virtual reality helmet and wireless data transfer interfaces.

Results. An algorithm has been developed for integrating a neural interface with virtual reality environments to ensure mobility, precise synchronization of events in the virtual world and corresponding brain reactions to create an objective picture of a person’s health status as a result of external influences.

Practical significance. A software implementation of a system for interaction between a virtual reality helmet and a neural interface is presented, aimed at increasing the mobility of recording, monitoring, recording and processing of brain signals in conditions of user immersion in virtual space.

Ivanov A.D., Tychkov A.Y., Simakova O.S., ,Alimuradov A.K., Tychkova A.N., Chernyshov D.S., Ovchinnikov D.L., Yuldashev Z.M.
The interaction system of a virtual reality helmet and a neurointerface. Biomedicine Radioengineering. 2024. V. 27. № 5. P. 41–45. DOI: https://doi.org/10.18127/j15604136-202405-06 (In Russian).

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