This technology is an educational robot device that receives images of objects captured by a user's wearable device to identify the object type, outputs information about the recognized object via video and audio, and controls the robot's movement. It also monitors the reserve and demand power status of the power supply system to control its operating mode.
Cognitive and language education for infants and toddlers has historically been difficult to provide consistently due to parents' time constraints.
This technology proposes an educational robot that communicates with a wearable device to capture the direction the user is pointing, identifies objects, and outputs relevant educational content. By dynamically controlling the robot's operating mode based on power status information, it enables both efficient educational support and power management. It can be applied to the fields of infant cognitive/language education and home service robots, enriching the learning experience by recognizing objects based on the user's gaze and providing tailored educational content.
N/A