VIRTUAL MODELS FOR COMMUNICATIONS BETWEEN USER DEVICES AND EXTERNAL OBSERVERS

Organization Name

QUALCOMM Incorporated

Inventor(s)

Debdeep Banerjee of San Diego CA (US)

Ananthapadmanabhan Arasanipalai Kandhadai of San Diego CA (US)

VIRTUAL MODELS FOR COMMUNICATIONS BETWEEN USER DEVICES AND EXTERNAL OBSERVERS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18450640 titled 'VIRTUAL MODELS FOR COMMUNICATIONS BETWEEN USER DEVICES AND EXTERNAL OBSERVERS

Simplified Explanation

The patent application describes systems and methods for interactions between an autonomous vehicle and external observers using virtual models.

• Virtual models of drivers are generated by the autonomous vehicle and displayed to external observers.
• The virtual models can be viewed using devices worn by the external observers.
• The virtual models enable interactions between the external observers and the autonomous vehicle through gestures or visual cues.
• The virtual models can be encrypted with characteristics of the external observers, such as their face image or iris.
• Multiple virtual models can be used simultaneously for multiple communications without interference.

Potential Applications

This technology has potential applications in various fields, including:

• Autonomous vehicle industry: Enhancing communication between autonomous vehicles and pedestrians or other drivers.
• Entertainment industry: Creating immersive experiences where virtual models of characters interact with the audience.
• Virtual reality (VR) and augmented reality (AR): Enabling realistic interactions between virtual objects and users in VR/AR environments.
• Security and surveillance: Using virtual models to facilitate communication and identification in security systems.

Problems Solved

The technology addresses several problems:

• Lack of effective communication between autonomous vehicles and external observers, leading to confusion or potential safety risks.
• Limited ways for external observers to interact with autonomous vehicles.
• Difficulty in identifying and distinguishing multiple external observers in a crowded environment.
• Potential interference when multiple virtual models are used simultaneously.

Benefits

The technology offers several benefits:

• Improved safety by enabling clear communication between autonomous vehicles and external observers.
• Enhanced user experience by providing interactive and immersive interactions with virtual models.
• Increased security through encrypted virtual models that can be matched with specific external observers.
• Efficient and reliable communication in crowded environments with multiple external observers.

Original Abstract Submitted

Systems and methods for interactions between an autonomous vehicle and one or more external observers include virtual models of drivers the autonomous vehicle. The virtual models may be generated by the autonomous vehicle and displayed to one or more external observers, and in some cases using devices worn by the external observers. The virtual models may facilitate interactions between the external observers and the autonomous vehicle using gestures or other visual cues. The virtual models may be encrypted with characteristics of an external observer, such as the external observer's face image, iris, or other representative features. Multiple virtual models for multiple external observers may be simultaneously used for multiple communications while preventing interference due to possible overlap of the multiple virtual models.