Spatial Consistency Perception in Optical and Video See-Through Head-Mounted Augmentations

Correct spatial alignment is an essential requirement for convincing augmented reality experiences. Registration error. caused by a variety of systematic. environmental, and user influences decreases the realism and utility of head mounted display AR applications. Focus is often given to rigorous calibration and prediction methods seeking to entirely remove misalignment error between virtual and real content. Unfortunately, producing perfect registration is often simply not possible. Our goal is to quantify the sensitivity of users to registration error in these systems, and identify acceptability thresholds at which users can no longer distinguish between the spatial positioning of virtual and real objects. We simulate both video see-through and optical see-through environments using a projector system and experimentally measure user perception of virtual content misalignment. Our results indicate that users are less perceptive to rotational errors over all and that translational accuracy is less important in optical see-through systems than in video see-through.