VIRTUAL AND AUGMENTED REALITY SYSTEMS
First Claim
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1. A spatial operating system with dynamic spatial utility model for virtual and augmented reality, comprising:
- augmented reality or virtual reality interface devices;
digital user interface elements;
user interactions and/or gestures;
a dynamic utility model for inter-operable functions and component behaviors of the digital elements in space;
digital content modules;
input and output streams;
sensory data, sense data;
location data;
3d spatial data of a user'"'"'s environment;
biometric data from the user'"'"'s body; and
artificial intelligence algorithms;
wherein these components of the spatial operating system with dynamic spatial utility model for virtual and augmented reality are structured such that the user commands the operating system from within a virtual and/or augmented reality to achieve desired outcomes, processes, and effects in a digital spatial computing.
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Abstract
A more effective, intuitive, and accessible 3d operating system to navigate, create, explore, share, produce, and be effective in virtual, augmented, and mixed reality applications. A spatial utility model that allows for functions and operability through multiple dimensions of spatial actions and data interactivity for Virtual/Augmented/Mixed reality applications, by way of providing defined spatial protocols, actions, procedures, and relationships for interfacing. These functions can be expanded, connected, and enhanced capable experiences of the body to applications, virtual data, interactivity, and media consumption.
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2 Claims
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1. A spatial operating system with dynamic spatial utility model for virtual and augmented reality, comprising:
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augmented reality or virtual reality interface devices; digital user interface elements; user interactions and/or gestures; a dynamic utility model for inter-operable functions and component behaviors of the digital elements in space; digital content modules; input and output streams; sensory data, sense data; location data; 3d spatial data of a user'"'"'s environment; biometric data from the user'"'"'s body; and artificial intelligence algorithms; wherein these components of the spatial operating system with dynamic spatial utility model for virtual and augmented reality are structured such that the user commands the operating system from within a virtual and/or augmented reality to achieve desired outcomes, processes, and effects in a digital spatial computing.
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2. A system that provides a functioning utility for the interpretation and utilization of the spatial features of a persons surrounding environment for appropriate programmable elements of augmented reality experiences, the system comprising:
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software that evaluates and interprets a spatial context to make decisions about where spatial content modules and interactive elements should be placed relative to the user(s); the software performing the steps; scanning the raw spatial data from the spatial context; processing an algorithm that interprets surfaces and depths, and categorizes them appropriately; saving the modules; and integrating the content and functionality based on user parameters and operational modes.
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Specification
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Current AssigneeBenjamin Lloyd Goldstein
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Original AssigneeBenjamin Lloyd Goldstein
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InventorsGoldstein, Benjamin Lloyd
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Application NumberUS15/587,839Publication NumberTime in Patent OfficeDaysField of SearchUS Class CurrentCPC Class CodesG06F 3/011 Arrangements for interactio...G06F 3/017 Gesture based interaction, ...
