Redirected walking utilizes gain adjustments within perceptual thresholds to allow natural navigation in large scale virtual environments within confined physical environments. Previous research has found that when users are distracted by some scene elements, they are less sensitive to gain values. However, the effects on detection thresholds have not been quantitatively measured. In this paper, we present a novel method that dynamically adjusts translation gain by leveraging visual distractors. We place distractors within the user's field of view and apply a larger translation gain when their attention is drawn to them. Because the magnitude of gain adjustment depends on the user's level of engagement with the distractors, the redirection process remains smooth and unobtrusive. To evaluate our method, we developed a task oriented virtual environment for a user study. Results show that introducing distractors in the virtual environment significantly raises users' translation gain thresholds. Furthermore, assessments using the Simulator Sickness Questionnaire and Igroup Presence Questionnaire indicate that the method maintains user comfort and acceptance, supporting its effectiveness for RDW systems.

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