Samsung electronics co., ltd. (20240320454). METHOD AND ELECTRONIC DEVICE WITH VISUAL CODE PROCESSING simplified abstract
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METHOD AND ELECTRONIC DEVICE WITH VISUAL CODE PROCESSING
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METHOD AND ELECTRONIC DEVICE WITH VISUAL CODE PROCESSING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240320454 titled 'METHOD AND ELECTRONIC DEVICE WITH VISUAL CODE PROCESSING
The abstract describes a processor-implemented method involving visual code processing, where a first image is generated by capturing a first visual code using an always-on sensor module of an electronic device. The method includes detecting a first code image corresponding to the first visual code, performing a first type decoding on the first code image, waking up an application processor of the electronic device based on the decoding result, and executing a first application corresponding to the first visual code.
- Always-on sensor module used for capturing visual codes
- Decoding of code images to wake up application processor
- Execution of applications based on decoded visual codes
- Integration of sensor module and application processor for efficient processing
- Utilization of visual codes for seamless interaction with electronic devices
Potential Applications: - Enhanced user experience in mobile devices - Quick access to specific applications through visual codes - Improved efficiency in processing visual information
Problems Solved: - Streamlining the process of capturing and decoding visual codes - Minimizing power consumption by utilizing an always-on sensor module - Enhancing the functionality of electronic devices through visual code processing
Benefits: - Faster access to applications through visual codes - Reduced power consumption with the use of an always-on sensor module - Seamless integration of visual code processing into electronic devices
Commercial Applications: Title: "Visual Code Processing Technology for Enhanced User Interaction" This technology can be applied in smartphones, tablets, and other electronic devices to provide users with a more intuitive and efficient way to interact with applications. The market implications include improved user satisfaction, increased device functionality, and potential for new revenue streams through innovative features.
Questions about Visual Code Processing: 1. How does visual code processing improve user interaction with electronic devices? Visual code processing enhances user interaction by providing a quick and efficient way to access applications through visual codes, reducing the time and effort required to navigate through menus or search for specific functions.
2. What are the advantages of using an always-on sensor module for capturing visual codes? An always-on sensor module ensures that visual codes can be captured instantly without the need to manually activate the sensor, improving the overall user experience and efficiency of the device.
Original Abstract Submitted
a processor-implemented method with visual code processing includes generating a first image by capturing a first visual code, using an always on (ao) sensor module of an electronic device, detecting a first code image included in the first image and corresponding to the first visual code, using the ao sensor module, performing a first type decoding on the first code image, using the ao sensor module, waking up an application processor (ap) of the electronic device from a low-power state, based on a first decoding result of the first type decoding, and executing a first application of the electronic device corresponding to the first visual code, using the ap.