Despite significant advances in the development and adoption of spatial audio, many musicians do not embed the technology within their creative processes. Instead, spatial audio technologies are more often used to create immersive adaptations of fundamentally frontal compositions or performances. This paper presents and evaluates a means of spatial music making, referred to as the immersive drum circle. The system facilitates group performance and composition, in which participants stand in a circle and perform on electronic percussion pads, with sound spatialised so that the listener experiences the music as if positioned within the ensemble. The system’s design is presented alongside implementation details, as well as feedback from musicians obtained as part of an educational workshop which aimed to inform how spatial audio can be used creatively in music. In addition to interacting with the system, participants auditioned the resulting spatial music across three playback scenarios representing: gaming, tracked and non-tracked headphone-based music consumption, and a live concert environment. The results show that the immersive drum circle system is a viable tool for music creation and a practical means of inspiring future compositional techniques.
Artificial intelligence is increasingly being integrated into professional audio production workflows, yet a gap persists between the tools developers produce and the requirements of practising sound designers. This paper investigates this gap through a mixed-methods study comprising a survey of 76 practitioners and follow-up semi-structured interviews with 20 industry professionals. Results were analysed using descriptive statistical analysis and thematic analysis to identify patterns across both datasets. Five themes emerged from our analysis: Context, Workflow, Potential, Risks, and Right Use. Our work indicates that current AI tools perform adequately in fast-consumption media contexts but lack the narrative sophistication required for high-end sound design (films,immersive experiences etc). Practitioners demonstrate a preference for assistive, task-specific applications, particularly in audio restoration and library management, over end-to-end generative systems. This work contributes to the on-going discussion on the use of AI and AI-enhanced tools in the creative industries. We report on the current status of the field from the point of view of sound designers and creative audio practitioners, and offer a set of recommendation for sound technologist and developers based on our findings to guide the development of more informed AI tools for sound design.
Spatial audio in extended reality (XR) has traditionally been framed as a localization tool, guiding users toward discrete virtual objects or events. This paper reframes this object-centered paradigm by presenting audio formgiving, an approach in which sound defines continuous zones demarcated by boundaries that users encounter through embodied movement. We present a mixed-reality study that investigates how participants perceive, reconstruct, and navigate such sound zones. We report our findings on reconstruction accuracy and boundary ambiguities across different sound zone shapes and sizes, and how movement trajectories relate to zone recognition, as well as participants’ strategies for navigating and identifying different types of sound zones.
