18256535. TOF APPARATUS AND ELECTRONIC DEVICE simplified abstract (Huawei Technologies Co., Ltd.)
Contents
TOF APPARATUS AND ELECTRONIC DEVICE
Organization Name
Inventor(s)
Shaogang Zhang of Shanghai (CN)
TOF APPARATUS AND ELECTRONIC DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18256535 titled 'TOF APPARATUS AND ELECTRONIC DEVICE
Simplified Explanation
The patent application discloses a Time of Flight (TOF) apparatus and an electronic device comprising the TOF apparatus. The TOF apparatus includes a transmitter and a receiver, both divided into multiple regions. The apparatus captures local 3D images of different regions of a target object through region-based turning-on and detection, and the electronic device splices these images to obtain a complete 3D image of the target object.
- TOF apparatus with transmitter and receiver divided into multiple regions
- Captures local 3D images of different regions of a target object
- Electronic device splices the images to obtain a complete 3D image
Potential Applications
- 3D scanning and imaging technology
- Augmented reality applications
- Robotics and automation
Problems Solved
- Improved accuracy in capturing 3D images
- Efficient processing of multiple local images
- Enhanced visualization of target objects
Benefits
- High-quality 3D imaging
- Enhanced spatial awareness
- Improved object recognition and tracking
Original Abstract Submitted
This application discloses a time of flight (TOF) apparatus and an electronic device comprising the TOF apparatus. The TOF apparatus includes a transmitter and a receiver, and both the transmitter and the receiver are divided into a plurality of regions. The TOF apparatus can capture a plurality of local 3D images corresponding to different regions of a target object in a manner in which the transmitter performs region-based turning-on and the receiver performs region-based detection, and then the electronic device splices the plurality of local 3D images, to obtain a 3D image of the target object.