MULTI OBJECT SURFACE IMAGE (MOSI) FORMAT

Organization Name

KONINKLIJKE PHILIPS N.V.

Inventor(s)

Christiaan Varekamp of Veldhoven (NL)

Andy Willems of Eindhoven (NL)

MULTI OBJECT SURFACE IMAGE (MOSI) FORMAT - A simplified explanation of the abstract

This abstract first appeared for US patent application 18578032 titled 'MULTI OBJECT SURFACE IMAGE (MOSI) FORMAT

The method described in the abstract involves processing multi-view image data by obtaining source view data from multiple sensors, containing texture and depth data of a scene with objects, and generating a stack of layers in a virtual scene based on the positions of the objects.

• Obtaining source view data from sensors
• Generating a stack of layers in a virtual scene for objects
• Positioning layers based on object positions
• Each layer contains texture and transparency data
• Processing multi-view image data efficiently

Potential Applications: - Augmented reality applications - Virtual reality content creation - 3D modeling and animation software - Computer vision systems - Gaming industry for realistic graphics

Problems Solved: - Efficient processing of multi-view image data - Accurate positioning of objects in virtual scenes - Seamless integration of texture and transparency data

Benefits: - Enhanced visual quality in virtual scenes - Improved realism in augmented reality applications - Streamlined content creation process - Increased accuracy in object positioning - Enhanced user experience in gaming and entertainment

Commercial Applications: Title: Advanced Image Processing Technology for Virtual Environments This technology can be utilized in various industries such as gaming, entertainment, virtual reality, and computer vision systems. It can revolutionize content creation processes and enhance user experiences in virtual environments, leading to increased market competitiveness and customer engagement.

Questions about Multi-View Image Data: 1. How does this method improve the processing of multi-view image data? This method enhances the efficiency and accuracy of processing multi-view image data by generating a stack of layers in a virtual scene based on object positions, resulting in improved visual quality and realism.

2. What are the potential applications of this technology in different industries? This technology has diverse applications in augmented reality, virtual reality, 3D modeling, gaming, and computer vision systems, offering opportunities for innovation and enhanced user experiences.

Original Abstract Submitted

A method for processing multi-view image data. The method comprises obtaining source view data from a plurality of sensors, the source view data containing source texture data and source depth data of a scene with one or more objects. The positions of one or more of the objects in the scene are obtained and a stack of layers is generated in a virtual scene for at least one of the objects, wherein the position of a stack of layers in the virtual scene is based on the position of the corresponding object in the scene. Generating a stack of layers comprises generating a plurality of layers, wherein each layer comprises texture data and transparency data for the corresponding object.