@article{oai:naist.repo.nii.ac.jp:00003880,
 author = {Okura, Fumio and Akaguma, Takayuki and Sato, Tomokazu and Yokoya, Naokazu},
 journal = {Multimedia Tools and Applications},
 month = {Jan},
 note = {Indirect augmented reality (IAR) employs a unique approach to achieve high-quality synthesis of the real world and the virtual world, unlike traditional augmented reality (AR), which superimposes virtual objects in real time. IAR uses pre-captured omnidirectional images and offline superimposition of virtual objects for achieving jitter- and drift-free geometric registration as well as high-quality photometric registration. However, one drawback of IAR is the inconsistency between the real world and the pre-captured image. In this paper, we present a new classification of IAR inconsistencies and analyze the effect of these inconsistencies on the IAR experience. Accordingly, we propose a novel IAR system that reflects real-world illumination changes by selecting an appropriate image from among multiple pre-captured images obtained under various illumination conditions. The results of experiments conducted at an actual historical site show that the consideration of real-world illumination changes improves the realim of the IAR experience.},
 pages = {1--25},
 title = {Addressing temporal inconsistency in indirect augmented reality},
 year = {2016}
}