*Introduction With the growing market of immersive audio, both new and exciting production possibilities are emerging, alongside the resurfacing of existing surround sound production techniques. As audio production continues to evolve, understanding the impact of temporal properties on spatial perception becomes increasingly critical. One of the most effective ways to create a sense of space and depth, as well as to enhance listener envelopment, is through precise manipulation of temporal characteristics of sound.
*Temporal Adjustments in Audio Production In stereophonic recording techniques, spatialization is often achieved by carefully controlling both each microphone’s distance from the sound source and the distance between microphones, in conjunction with leveraging variations in microphone sensitivity through polar patterns and directional rejection. These distance-based variations introduce time delays, which are fundamental to spatial localization and depth perception. Similarly, in post-production workflows, delaying and applying differentiated effects to signals serve as powerful tools for enhancing immersion and spatiality. The controlled use of delay, reflections, and micro-temporal variations plays a significant role in shaping perceived auditory space. These techniques are widely used in both as mixing approaches with music and also sound design where artificially introducing delays helps simulate the propagation of sound in physical spaces, creating a more authentic and immersive auditory experience.
*Psychoacoustic Phenomena and Spatial Perception Closely delayed or slightly altered signals give rise to psychoacoustic effects that influence spatial perception rather than purely temporal perception. For instance, the number, spectral characteristics, and temporal distribution of reflections can lead a listener to perceive an auditory environment akin to a concert hall, even in the absence of an actual reverberant space. The well-known Haas effect (precedence effect) provides insights into how human perception prioritizes the first-arriving sound over subsequent delayed versions, influencing localization and clarity. Additionally, the concepts of Temporal Integration Window (auditory signal fusion) describe how multiple signals originating from the same source are perceptually fused into a single event, affecting spatial coherence and envelopment.
*Workshop and Study Overview This workshop presents and exemplifies findings from an ongoing semester-long study, which is currently being prepared as a submission to the Journal of the Audio Engineering Society. The study investigates whether sensation, timbral perception, and temporal integration windows are influenced when the delayed signal's spatial position is altered. By showcasing how spatial modifications of delayed signals affect auditory perception, the workshop aims to contribute insights to the field of immersive audio production.
*Conclusion This research underscores the importance of temporal manipulation in immersive audio, bridging psychoacoustics with production techniques. By examining spatial perception through the lens of delay-based processing, the study offers new perspectives on designing more effective immersive sound experiences. The workshop will provide participants with theoretical insights and practical examples, encouraging further exploration of the intersection between temporal properties and spatial audio design.
