18545872. VIRTUAL ROBOT IMAGE PRESENTATION METHOD AND APPARATUS simplified abstract (HUAWEI TECHNOLOGIES CO., LTD.)
Contents
VIRTUAL ROBOT IMAGE PRESENTATION METHOD AND APPARATUS
Organization Name
Inventor(s)
Fredrik Andreasson of Lund (SE)
VIRTUAL ROBOT IMAGE PRESENTATION METHOD AND APPARATUS - A simplified explanation of the abstract
This abstract first appeared for US patent application 18545872 titled 'VIRTUAL ROBOT IMAGE PRESENTATION METHOD AND APPARATUS
Simplified Explanation
The abstract describes a method and apparatus for presenting virtual robot images based on scene information to enhance user experience and utilization of virtual robots.
- Explanation:
- An electronic device generates and presents virtual robot images based on scene information. - Scene information includes current time attribute and type of application running on the device. - The method aims to provide richer and more vivid virtual robot images for better user experience.
- Potential Applications:
- Virtual reality gaming - Augmented reality applications - Virtual assistants
- Problems Solved:
- Enhancing user experience with virtual robots - Improving utilization of virtual robots
- Benefits:
- Richer and more vivid virtual robot images - Better user experience - Enhanced human-machine interaction
- Potential Commercial Applications:
- Entertainment industry - Education sector - Healthcare applications
- Possible Prior Art:
- Prior methods of presenting virtual robot images based on scene information - Previous techniques for enhancing user experience with virtual robots
Questions:
1. How does the method determine the specific virtual robot image to present based on the scene information provided? 2. What types of applications running on the electronic device can influence the virtual robot image presented to the user?
Original Abstract Submitted
A virtual robot image presentation method and an apparatus are provided to improve virtual robot utilization and user experience. In this method, an electronic device generates a first virtual robot image, and presents the first virtual robot image. The first virtual robot image is determined by the electronic device based on scene information. The scene information includes at least one piece of information in first information and second information, the first information is used to represent a current time attribute, and the second information is used to represent a type of an application currently running in the electronic device. According to the foregoing method, in a human-machine interaction process, virtual robot images can be richer and more vivid, so that user experience can be better, thereby improving virtual robot utilization of a user.