Abstract
This paper describes a pen tool that will utilize fingers-based occlusion of the real-world view to activate the pen tool activation state where the fingers-based occlusion effect will be observed and detected from within the inside of the pen tool holding structure. The pen tool methodology will incorporate a pen tool, tracking markers and a built-in camera configuration. The pen tool methodology will be required to utilize a power source that will be required to power the pen tool and its entities. And the pen tool methodology will be required to utilize virtual technologies such as augmented reality and virtual reality with the capability to observe the real world through a camera feed. In addition to that, the pen tool methodology will be required to utilize a tracking methodology to track the position and the orientation of the utilizing pen tool relative to the position and the orientation of the utilizing virtual content viewing device. During the pen tool methodology, the built-in camera configuration, which will observe and detect the fingers-based occlusion effect, will be housed within inside of the pen tool holding structure. And during the pen tool methodology, the built-in camera configuration will observe and detect the occlusion patterns of the fingers on the view of the real-world, as observed from within inside of the pen tool holding structure. In addition to that, this observation and the occlusion patterns of the fingers will be utilized to register the pen tool into a creation-ready-active state.
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This work is licensed under a Creative Commons Attribution 4.0 License.
Recommended Citation
abeysekera, punarjeewa, "The Pen Tool that Will Utilize Fingers-Based Occlusion of the Real-World View to Activate the Pen Tool Activation State Where the Fingers-Based Occlusion Effect Will be Observed and Detected from Within the Inside of the Pen Tool Holding Structure.", Technical Disclosure Commons, ()
https://www.tdcommons.org/dpubs_series/10984