18236064. ROBOT DEVICE OPERATING IN MODE CORRESPONDING TO POSITION OF ROBOT DEVICE AND CONTROL METHOD THEREOF simplified abstract (SAMSUNG ELECTRONICS CO., LTD.)
ROBOT DEVICE OPERATING IN MODE CORRESPONDING TO POSITION OF ROBOT DEVICE AND CONTROL METHOD THEREOF
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ROBOT DEVICE OPERATING IN MODE CORRESPONDING TO POSITION OF ROBOT DEVICE AND CONTROL METHOD THEREOF - A simplified explanation of the abstract
This abstract first appeared for US patent application 18236064 titled 'ROBOT DEVICE OPERATING IN MODE CORRESPONDING TO POSITION OF ROBOT DEVICE AND CONTROL METHOD THEREOF
Simplified Explanation
The abstract describes a robot device and method of controlling it. The robot device includes at least one sensor, at least one memory to store instructions, and at least one processor to execute the instructions. The method involves controlling the robot device in a first mode based on its position, identifying events of picking up and placing the robot device based on sensing data, and controlling the robot device in a second mode when its position changes.
- The robot device has sensors, memory, and a processor.
- The device can be controlled in different modes based on its position.
- It can identify events of picking up and placing the device using its sensors.
- The device can change its mode when its position changes.
Potential applications of this technology:
- Robotic assistants: The robot device can be used as a personal assistant to perform tasks based on its position and user interactions.
- Warehouse automation: The device can be used in warehouses to pick up and place items based on its position and sensing data.
- Healthcare support: The robot device can assist healthcare professionals by providing tools or equipment based on its position and user interactions.
Problems solved by this technology:
- Improved user interaction: The device can identify events of picking up and placing, enhancing user experience and control.
- Efficient positioning: The device can change its mode based on its position, allowing for more efficient and targeted operations.
- Adaptability: The device can adjust its behavior based on new sensing data, improving its ability to perform tasks in different positions.
Benefits of this technology:
- Enhanced functionality: The device can perform different tasks and adapt to different positions, increasing its versatility.
- Improved efficiency: The device can optimize its operations based on its position, leading to more efficient task completion.
- Enhanced user experience: The device can accurately identify user interactions, providing a seamless and intuitive control experience.
Original Abstract Submitted
Provided is a robot device and method of controlling same, wherein the robot device includes: at least one sensor; at least one memory configured to store at least one instruction; and at least one processor configured to execute the at least one instruction to: based on the robot device being positioned at a first position, control the robot device in a first mode corresponding to the first position, identify, based on sensing data obtained by the at least one sensor, a first event of picking up the robot device by a user and a second event of placing the robot device, and based on an identification that a position of the robot device is changed from the first position to a second position based on new sensing data obtained by the at least one sensor after the first event and the second event sequentially occur, control the robot device in a second mode corresponding to the second position.
