Abstract

This paper describes a cyclical composite virtual projection system that will effectively increase the perceived resolution of the cyclically projected virtual projections where the effective resolution increasing effect will be achieved by effectively positioning the cyclical virtual projections at a greater distance away from the eye. The entire cyclical composite virtual projection system will consist of a cyclical projection directing system and 4 identical cyclically configured composite projection systems. And the cyclical projection directing system will contain 4 cyclically configured convex lens stack sections, 4 cyclically configured reflectors and 4 cyclically configured beam splitter configurations. In addition to that, each cyclically configured composite projection system will altogether contain 4 identical cyclically configured 4 projection systems where each cyclically configured projection system will contain 4 projection configurations that will overlap with each other in 3-dimensional space. In the cyclical composite virtual projection system, the 4 containing cyclically configured composite projection systems will have the capability to collectively and concurrently project 64 individual projections. And in the cyclical composite virtual projection system, the containing cyclical projection directing system will have the capability to collectively and concurrently direct the projected 64 projections onto the field of vision of the user of the cyclical composite virtual projection system. During this multiple projection directing scenario, the cyclical projection directing system will effectively position the 64 projections at a greater distance away from the eye of the user. This positioning effect will enable the user to perceive the 64 projections as a one high-resolution combined projection.

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

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