18223257. ELECTRONIC APPARATUS FOR IDENTIFYING A CONTROL SIGNAL BASED ON MOTION INFORMATION AND CONTROL METHOD THEREOF simplified abstract (SAMSUNG ELECTRONICS CO., LTD.)
Contents
- 1 ELECTRONIC APPARATUS FOR IDENTIFYING A CONTROL SIGNAL BASED ON MOTION INFORMATION AND CONTROL METHOD THEREOF
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 ELECTRONIC APPARATUS FOR IDENTIFYING A CONTROL SIGNAL BASED ON MOTION INFORMATION AND CONTROL METHOD THEREOF - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Potential Applications
- 1.6 Problems Solved
- 1.7 Benefits
- 1.8 Original Abstract Submitted
ELECTRONIC APPARATUS FOR IDENTIFYING A CONTROL SIGNAL BASED ON MOTION INFORMATION AND CONTROL METHOD THEREOF
Organization Name
Inventor(s)
ELECTRONIC APPARATUS FOR IDENTIFYING A CONTROL SIGNAL BASED ON MOTION INFORMATION AND CONTROL METHOD THEREOF - A simplified explanation of the abstract
This abstract first appeared for US patent application 18223257 titled 'ELECTRONIC APPARATUS FOR IDENTIFYING A CONTROL SIGNAL BASED ON MOTION INFORMATION AND CONTROL METHOD THEREOF
Simplified Explanation
An electronic apparatus is disclosed that includes projection circuitry, a communication interface, and at least one processor. The processor is connected with the projection circuitry and the communication interface and is configured to control the electronic apparatus. The processor controls the projection circuitry to project an image towards a projection region. It also receives first motion information from a first portable device, a second portable device, and a wearable device through the communication interface. The first portable device, second portable device, and wearable device are worn by a user and are arranged to correspond to the image. The processor identifies orientations of each device based on the first motion information and identifies the location of the user based on the identified orientations.
- The electronic apparatus includes projection circuitry, a communication interface, and at least one processor.
- The processor controls the projection circuitry to project an image towards a projection region.
- The processor receives first motion information from a first portable device, a second portable device, and a wearable device through the communication interface.
- The first portable device, second portable device, and wearable device are worn by a user and are arranged to correspond to the image.
- The processor identifies orientations of each device based on the first motion information.
- The processor identifies the location of the user based on the identified orientations.
Potential Applications
- Augmented reality experiences
- Interactive presentations and displays
- Gaming and virtual reality applications
- Collaborative work environments
Problems Solved
- Improved user interaction and control of electronic apparatus
- Enhanced spatial awareness and tracking of user and devices
- Seamless integration of multiple portable devices and wearable devices
Benefits
- Immersive and engaging user experiences
- Increased productivity and efficiency in collaborative work environments
- Enhanced gaming and entertainment experiences
- Improved spatial tracking and orientation identification
Original Abstract Submitted
An electronic apparatus is disclosed. The electronic apparatus includes projection circuitry, a communication interface, and at least one processor connected with the projection circuitry and the communication interface and configure to control the electronic apparatus, and the processor is configured to control the projection circuitry to project an image towards a projection region, receive first motion information from each of a first portable device, a second portable device, and a wearable device through a communication interface after a first portable device, a second portable device, and a wearable device worn by a user are arranged to correspond to the image, identify orientations of each of the first portable device, the second portable device, and the wearable device based on the first motion information, and identify a location of the user based on identified orientations.