Abstract

This paper describes a virtual content viewing device with a greater virtual world view and a greater actual world view that utilizes a convex lens-based refraction mechanism to provide the greater virtual projection observing space where a concave lens-based mechanism will enable the user to clearly observe the real world. The entire virtual content viewing device will consist of a left composite projection system and a right composite projection system. The left composite projection system will contain a top projection system and a bottom projection system. And the right composite projection system will contain a top projection system and a bottom projection system. Each projection system that will be containing within the virtual content viewing device will contain a video display, a projection assisting convex lens stack, a beam splitter, a projection observing convex lens stack and a refraction-nullifying concave lens stack that will nullify any projection observing convex lens stack refracted light from the real world. And each projection system that will be containing within the virtual content viewing device will have the capability to project a projection, which will be observable as a virtual projection space in the field of view of the user of the virtual content viewing device. In addition to that, the entire virtual content viewing device, by utilizing the containing 4 projection systems, will have the capability to collectively and concurrently project 4 projections that will be observable as a one single composite projection observing space in the field of view of the user.

Creative Commons License

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.

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