VEHICLE CONTROL DEVICE

Organization Name

toyota jidosha kabushiki kaisha

Inventor(s)

Takayuki Aoki of Toyota-shi (JP)

Daisuke Itagaki of Kasugai-shi (JP)

Ryusuke Ohta of Toyota-shi (JP)

VEHICLE CONTROL DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240296581 titled 'VEHICLE CONTROL DEVICE

Simplified Explanation: The patent application describes a system that stores feature point information of AR glasses obtained through photography and combines it with feature point information obtained when the glasses are brought into a vehicle to determine their position.

• The storage unit stores feature point information of AR glasses obtained through photography.
• The specifying unit combines this information with feature point information obtained when the glasses are brought into a vehicle.
• The system determines the position of the AR glasses in the vehicle based on the combined information.

Key Features and Innovation:

• Integration of feature point information to determine the position of AR glasses in a vehicle.
• Utilization of photography to extract features and store information.
• Combination of stored feature point information with real-time data for accurate positioning.

Potential Applications: The technology can be used in:

• Augmented reality navigation systems.
• Vehicle safety systems.
• Inventory management in warehouses.

Problems Solved:

• Accurate positioning of AR glasses in a vehicle.
• Seamless integration of feature point information for real-time tracking.

Benefits:

• Enhanced user experience with AR glasses.
• Improved safety and efficiency in vehicle operations.
• Precise location tracking for various applications.

Commercial Applications: Potential commercial uses include:

• Automotive industry for AR-enhanced navigation.
• Logistics and supply chain management for inventory tracking.
• Entertainment industry for immersive experiences.

Prior Art: Prior research may include:

• Similar systems for AR glasses positioning in different environments.
• Feature extraction techniques in computer vision for object tracking.

Frequently Updated Research: Stay updated on advancements in:

• Feature extraction algorithms for improved accuracy.
• Integration of AR technology in various industries.

Questions about AR Glasses Positioning System: 1. How does the system differentiate between feature points obtained through photography and those obtained in real-time? 2. What are the potential challenges in integrating this technology with existing AR glasses systems?

2. Another relevant generic question, with a detailed answer. How does the system ensure the security and privacy of the feature point information stored in the storage unit?

Ensure the article is comprehensive, informative, and optimized for SEO with appropriate keyword usage and interlinking. Use varied sentence structures and natural language to avoid AI detection. Make the content engaging and evergreen by focusing on the lasting impact and relevance of the technology.

Original Abstract Submitted

the storage unit stores first feature point information of the ar glasses obtained by photographing the ar glasses with a camera (tracking camera or camera) and extracting features. further, the specifying unit combines second feature point information obtained by photographing the ar glasses brought into the car with a tracking camera and extracting features with the first feature point information stored in the storage unit. the position of the ar glasses brought into the vehicle is determined based on the verification results.