K-SPACE ANALYSIS FOR GEOMETRICAL WAVEGUIDE

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K-SPACE ANALYSIS FOR GEOMETRICAL WAVEGUIDE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240231103 titled 'K-SPACE ANALYSIS FOR GEOMETRICAL WAVEGUIDE

Simplified Explanation

The patent application discusses techniques for analyzing waveguide-based near-eye display systems using three-dimensional k-vectors in a 3D k-sphere.

Geometrical waveguide display with transflective mirrors at a specific tilt angle.
Tilt angle of n×180°/n with respect to the substrate surface.
n is an odd number and an integer smaller than n.

Key Features and Innovation

Waveguide-based near-eye display systems analyzed using 3D k-vectors.
Geometrical waveguide display with specific tilt angles for transflective mirrors.
Utilization of odd numbers and specific tilt angles for improved display performance.

Potential Applications

Augmented reality devices.
Virtual reality headsets.
Heads-up displays in vehicles.
Medical imaging devices.
Military applications.

Problems Solved

Enhanced display performance.
Improved image quality.
Reduction of visual artifacts.
Increased field of view.
Better user experience.

Benefits

Clearer and sharper images.
Reduced eye strain.
Immersive viewing experience.
Enhanced functionality.
Improved overall display performance.

Commercial Applications

1. 1. Waveguide-based near-eye display systems for augmented reality and virtual reality devices: A Market Analysis

Waveguide-based near-eye display systems have the potential to revolutionize the augmented reality and virtual reality market by providing users with immersive and high-quality visual experiences. These systems can be used in various industries, including gaming, healthcare, military, and automotive, offering a wide range of commercial applications. With the increasing demand for advanced display technologies, waveguide-based near-eye display systems are poised to capture a significant market share in the coming years.

Prior Art

Research on waveguide-based near-eye display systems and the use of k-vectors in analyzing display performance can be found in academic journals and patents related to optical display technologies. Researchers have explored various techniques to improve the quality and functionality of near-eye displays, including the use of reflective and transflective mirrors, as well as advanced optical designs to enhance image clarity and reduce visual artifacts.

Frequently Updated Research

Ongoing research in the field of waveguide-based near-eye display systems focuses on optimizing display performance, increasing field of view, and reducing form factor to enhance user comfort and convenience. Researchers are also exploring new materials and manufacturing techniques to improve the efficiency and cost-effectiveness of these display systems.

Questions about Waveguide-based Near-Eye Display Systems

1. How do waveguide-based near-eye display systems compare to traditional display technologies in terms of image quality and user experience? 2. What are the key challenges in implementing waveguide-based near-eye display systems in commercial products?

Original Abstract Submitted

techniques disclosed herein relate to waveguide-based near-eye display systems and techniques for analyzing the waveguide-based near-eye display systems using three-dimensional (3-d) k-vectors (wave vectors) in 3-d k-sphere. in one example, a geometrical waveguide display may include a substrate and a first plurality of transflective mirrors in the substrate, the first plurality of transflective mirrors characterized by a tilt angle of n�180�/n with respect to a surface of the substrate, where n is an odd number and n is an integer smaller than n.