SYSTEM AND METHOD FOR DEPTH DATA CODING

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SYSTEM AND METHOD FOR DEPTH DATA CODING - A simplified explanation of the abstract

This abstract first appeared for US patent application 18088206 titled 'SYSTEM AND METHOD FOR DEPTH DATA CODING

Simplified Explanation: The patent application describes systems and methods for encoding/decoding a 3D image by accessing image data with texture and depth map, decomposing the depth map into component depth maps for different depth ranges, generating encoded data streams for each depth range, and transmitting them to a client device for reconstruction and display of the image.

Key Features and Innovation:

Accessing image data with texture and depth map
Decomposing the depth map into component depth maps for different depth ranges
Generating encoded data streams for each depth range
Transmitting data streams to a client device for reconstruction and display of the image

Potential Applications: This technology can be used in various industries such as virtual reality, augmented reality, gaming, medical imaging, and 3D modeling for enhanced visual experiences and accurate depth perception.

Problems Solved: This technology addresses the challenges of efficiently encoding and decoding 3D images with texture and depth information, enabling realistic rendering and visualization of complex scenes.

Benefits:

Improved visual quality and depth perception in 3D images
Enhanced user experience in virtual reality and augmented reality applications
Efficient encoding and decoding of complex image data for real-time processing

Commercial Applications: The technology can be applied in industries such as entertainment, healthcare, architecture, and education for creating immersive experiences, realistic simulations, and interactive visualizations, leading to new opportunities in product development and customer engagement.

Prior Art: Prior research in the field of 3D image encoding and decoding includes techniques for depth map compression, texture mapping, and image rendering algorithms. Researchers have explored methods to improve the efficiency and quality of 3D image processing for various applications.

Frequently Updated Research: Researchers are continuously working on optimizing encoding and decoding algorithms for 3D images, exploring new techniques for depth map decomposition, texture mapping, and real-time rendering to enhance visual quality and user experience in virtual environments.

Questions about 3D Image Encoding/Decoding: 1. How does this technology improve the realism of 3D images? 2. What are the potential challenges in implementing this technology in real-time applications?

Original Abstract Submitted

Systems and methods for encoding/decoding a 3D image are provided. The system accesses an image data that comprises a texture data and a depth map. The system decomposes the depth map into a plurality of component depth maps (CDMs) for a plurality of depth ranges, wherein each component depth map corresponds to a focal plane of multiple focal planes (MFPs) decomposition of the image data. The system generates a plurality of encoded CDM data streams for the plurality of depth ranges, wherein each respective CDM data stream is based at least in part on a respective CDM. The system then transmits the plurality of encoded CDM data streams to a client device to cause the client device to: (a) reconstruct the depth map, and (b) generate for display or for further processing an image based on the reconstructed depth map.