AUGMENTED REALITY, VIRTUAL REALITY, AND MIXED REALITY (AR/VR/MR)
MACHINE LEARNING FOR DISPLAYS
HIGH-DYNAMIC-RANGE DISPLAYS
IoT DISPLAYS
Symposium Topics
This special topic covers the technologies and applications in the emerging areas of Augmented Reality (AR), Virtual Reality (VR), and Mixed Reality (MR). These sessions will bring together scientists, engineers, business professionals, market analysts, and industry leaders involved in AR, VR, and MR technologies, products, applications, advanced developments, and emerging trends. AR/VR/MR topics include, but are not limited to, the following:
The evolution of new computing technologies and the availability of big data are boosting machine learning (ML) and deep learning in different fields. The special topic on ML covers the applications of machine learning in all aspects of display technologies and manufacturing. These sessions bring together display experts and ML experts to explore opportunities to solve challenging display problems with the right ML techniques. Machine Learning topics include, but are not limited to, the following:
This special topic covers new materials and device technologies for high-dynamic-range (HDR) displays and applications. An HDR display requires high luminance (>1,000 nits), deep black level (<0.005 nits), and bit depth >10 bits. Both miniLED backlit LCDs and dual-cell LCDs, OLEDs and microLEDs can achieve HDR, but with their own challenges. HDR display topics include, but are not limited to, the following:
The Internet of Things (IoT) is an increasingly important paradigm for creating a world of connected devices, with compelling use cases in domains including healthcare, logistics, energy control, and smart cities. In the IoT era, image displays including digital signage are evolving from unidirectional advertising tools to smart display/signage tools that provide bidirectional and interactive services. Smart signage, for example, collects user contexts from various sensors and wearable devices. The smart signage then changes contents on the screen according to the context information. Therefore, users can be served various personalized and targeted services. However, conventional signage systems have difficulty in connecting new sensing devices to the systems because there is no standard to connect signage systems and sensing devices. Moreover, conventional wireless communication systems for small wireless electronics devices suffer from low radiation efficiencies of miniaturized antennas implemented within less-than ideal real estate and locations (e.g., antennas are typically installed in a small bezel of the display device). Displays for IoT also need to have increased communication bandwidth in order to keep up with other media used for computing. Papers are sought to enable bidirectional image displays with topics including the following:
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