Acoustic performance remains insufficiently addressed in early-stage architectural design, where visual and spatial considerations typically guide decision-making. The present research examines the integration of real-time spatial auralization into multi-user virtual reality environments to facilitate collaborative evaluation of architectural acoustic performance during design exploration. A multi-user VR framework has been developed that embeds real-time binaural auralization within a collaborative design evaluation context. The framework supports shared inhabitation of virtual models, auditory exploration of spatialized sound sources, and systematic investigation of how spatial configurations and material properties affect perceived acoustic characteristics. Temporal soundscapes and acoustic implications of alternative materials and spatial arrangements can be evaluated through a gesture-driven interface. Spatialized voice communication further supports co-inhabitation of virtual environments and acoustically informed discussion. By embedding real-time auralization within collaborative virtual environments, the framework repositions acoustic performance as an experiential dimension of architectural design, enabling earlier incorporation of auditory considerations into the design process. An exploratory user study indicates that immersive, real-time auralization can integrate acoustic feedback into collaborative architectural design workflows, supporting multisensory evaluation and reducing dependence on late-stage corrective interventions.
