Abstract

This paper describes a compact composite virtual content viewing system that contains 32 cuboidal shaped projection configurations where the projection configurations overlap with each other to provide a greater immersion in a compact space. The entire composite virtual content viewing system will consist of a top projection system and a bottom projection system, which are identical to each other. And each projection system will contain 16 cuboidal shaped projection configurations and 2 identical rectangular shaped video displays. The top projection system, by utilizing the containing 16 cuboidal shaped projection configurations and the 2 identical rectangular shaped video displays, will have the capability to collectively and concurrently project 16 projections onto the field of view of the user of the virtual content viewing system. And the bottom projection system, by utilizing the containing 16 cuboidal shaped projection configurations and the 2 identical rectangular shaped video displays, will have the capability to collectively and concurrently project 16 projections onto the field of view of the user of the virtual content viewing system. In addition to that, the 2 projection systems will have the capability to collectively and concurrently project 32 projections onto the field of view of the user of the virtual content viewing system. Furthermore, these projected 32 projections will be combined into a one single larger composite projection, which will be perceivable as a composite virtual content viewing area by the user of the virtual content viewing system.

Creative Commons License

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

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