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Description: This study investigates the effectiveness of haptic feedback in the form of vibration stimuli for navigation in virtual reality (VR) environments. The research aims to assess whether vibration-based cues can enhance users' spatial orientation and navigation efficiency compared to sound cues. Participants will navigate a VR environment under two conditions: sound cues and vibration cues. Key outcomes include navigation time, path length, amount of collisions, and user satisfaction. The hypothesis that vibration-based cues will outperform sound cues in enhancing navigation performance is supported by findings from previous studies. For example, research such as "Wearable Obstacle Avoidance Electronic Travel Aids for Blind: A Survey" (Dakopoulos et al., 2009) highlights a preference for tactile (haptic) feedback over auditory cues, especially in tasks requiring spatial awareness and navigation. Additionally, studies like "Tactile warning signals for in-vehicle systems" (Meng and Spence, 2015) demonstrate the advantages of vibrotactile feedback in improving users' ability to avoid obstacles and navigate efficiently. These findings suggest that haptic feedback provides a more intuitive and effective guidance method, delivering direct, localized information to the user and reducing cognitive load. By integrating these insights, this study hypothesizes that participants will show improved navigation efficiency (measured by time to target and collision frequency) and higher satisfaction (assessed by feedback questionnaires) when using vibration cues compared to sound cues. The results will contribute to a better understanding of the role of haptic feedback in improving VR accessibility and usability.