Abstract

This paper describes a cyclically configured composite projection system that have the capability to project composite virtual content onto 3 unique virtual image observation distances where the 3 unique image observation distances will be achieved utilizing 3 unique composite lens configurations. The entire composite projection system will consists of 4 identical cyclically configured projection systems and 4 cyclically configured primary beam splitter configurations. Each cyclically configured projection system will consists of 3 composite lens configurations that have 3 unique effective focal lengths, 2 secondary beam splitter configurations and 3 identical video projecting displays. The 4 identical cyclically configured projection systems will have the capability to collectively project 3 categories of composite virtual image projections onto 3 virtual image observation planes located at 3 unique image observation distances. And the 4 cyclically configured primary beam splitter configurations will have the capability to cyclically direct the 3 categories of composite virtual image projections onto the field of view of the user of the composite projection system. In addition to that, the user of the composite projection system will have the capability to select a desired category of composite virtual image projection to project the composite virtual image projections onto the required corresponding virtual image observation plane located at the required unique image observation distance. Furthermore, the composite projection system can be utilized in the dual configuration mode, one composite system per each eye of the user, as a virtual content viewing device.

Creative Commons License

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

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