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Open Access Research paper Issue
Adaptive rehabilitation training for vestibular semicircular canal injury based on virtual reality technology
Journal of Otology 2026, 21(2): 90-95
Published: 29 April 2026
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Objective

To evaluate the clinical efficacy of an adaptive vestibular rehabilitation training system based on Virtual Reality (VR) technology for patients with semicircular canal injury.

Methods

A randomized controlled trial was conducted with 60 patients diagnosed with peripheral vestibular vertigo. Participants were randomly assigned to either an Intervention Group (n=30), which received VR-based adaptive vestibular rehabilitation using the PICO 4 Pro system, or a Control Group (n=30), which underwent traditional vestibular rehabilitation. Both groups received training for four weeks. The primary outcome measure was the Dizziness Handicap Inventory (DHI). Secondary outcomes included balance performance assessed via the Activities-specific Balance Confidence (ABC) Scale and static posturography (Maximum Sway Path Length and Sway Area). Vestibular function was objectively evaluated using the Video Head Impulse Test (vHIT) and the Bithermal Caloric Test. Psychological status was assessed using the Hospital Anxiety and Depression Scale (HADS).

Results

Post-intervention analysis revealed that the Intervention Group achieved significantly lower DHI scores compared to the Control Group. In terms of balance, the Intervention Group demonstrated significantly higher ABC Scale scores and reduced Maximum Sway Path Length and Sway Area compared to controls. Furthermore, the Intervention Group showed a significantly lower rate of abnormal findings in both vHIT and Bithermal Caloric Tests, indicating improved physiological function. Improvements in psychological well-being were also observed, with the Intervention Group exhibiting significantly lower HADS scores.

Conclusion

VR-based adaptive vestibular rehabilitation is effective in alleviating vertigo symptoms, enhancing balance function, and improving psychological well-being. The intervention also promotes the physiological recovery of semicircular canal function, demonstrating superior clinical efficacy compared to traditional rehabilitation methods.

Survey Issue
Overcoming Spatial Constraints in VR: A Survey of Redirected Walking Techniques
Journal of Computer Science and Technology 2024, 39(4): 841-870
Published: 20 September 2024
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As the virtual reality (VR) technology strives to provide immersive and natural user experiences, the challenge of aligning vast virtual environments with limited physical spaces remains significant. This survey comprehensively explores the advancements in redirected walking (RDW) techniques aimed at overcoming spatial constraints in VR. RDW addresses this by subtly manipulating users’ physical movements to allow for seamless navigation within constrained areas. The survey delves into gain perception mechanisms, detailing how slight discrepancies between virtual and real-world movements can be utilized without user awareness, thus extending the effective navigable space. Various RDW control algorithms for gain-based RDW are analyzed, highlighting their implementation and effectiveness in maintaining immersion and minimizing perceptual disturbances. Furthermore, novel methods extending beyond traditional gain-based techniques are discussed, showcasing innovative approaches that further refine VR interactions. The practical implications of RDW in enhancing safety and reducing physical collisions in VR environments are underscored, alongside its potential to improve user experience by aligning virtual exploration more closely with natural human behavior patterns. Through a thorough review of existing literature and recent advancements, this survey provides a systematic understanding for researchers, developers, and industry professionals. It underscores the importance of RDW in the future of VR, emphasizing RDW's role in making VR more accessible and practical across various applications, from education and training to therapy and entertainment. The paper concludes with a forward-looking perspective on the continued evolution and potential of RDW in revolutionizing virtual reality experiences.

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