Apple inc. (20240323342). Electronic Device with Reliable Passthrough Video Fallback Capability and Hierarchical Failure Detection Scheme simplified abstract
Electronic Device with Reliable Passthrough Video Fallback Capability and Hierarchical Failure Detection Scheme
Organization Name
Inventor(s)
Mohamed Al Sharnouby of Dublin CA (US)
Arun Kannan of Mountain View CA (US)
Venu M Duggineni of San Jose CA (US)
Kaushik Raghunath of Pleasanton CA (US)
Saul H Weiss of Parker CO (US)
James C Mcilree of Santa Clara CA (US)
Sankaravadivoo Subramanian of Saratoga CA (US)
Mukta S Gore of Sunnyvale CA (US)
Russell L Jones of Westminster CO (US)
Electronic Device with Reliable Passthrough Video Fallback Capability and Hierarchical Failure Detection Scheme - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240323342 titled 'Electronic Device with Reliable Passthrough Video Fallback Capability and Hierarchical Failure Detection Scheme
Simplified Explanation: The patent application describes an electronic device with image sensors and displays that can detect critical failures through a hierarchical scheme and adjust display modes accordingly.
- Image sensors and displays in the electronic device
- Hierarchical failure detection scheme for critical failures
- Monitoring subsystem conditions to detect failures
- Displays operating in different video passthrough modes based on subsystem conditions
Key Features and Innovation:
- Integration of image sensors and displays in an electronic device
- Hierarchical failure detection scheme for critical failures
- Adaptive display modes based on subsystem conditions
Potential Applications:
- Surveillance systems
- Augmented reality devices
- Industrial monitoring equipment
Problems Solved:
- Detection of critical failures in electronic devices
- Adaptive display modes based on system conditions
Benefits:
- Improved reliability of electronic devices
- Enhanced user experience through adaptive display modes
Commercial Applications: The technology can be applied in various industries such as surveillance, augmented reality, and industrial monitoring for improved reliability and user experience.
Prior Art: Readers can explore prior patents related to hierarchical failure detection schemes in electronic devices for more information.
Frequently Updated Research: Stay updated on research related to hierarchical failure detection schemes and adaptive display technologies for electronic devices.
Questions about the Technology: 1. How does the hierarchical failure detection scheme improve the reliability of electronic devices? 2. What are the potential commercial applications of adaptive display modes based on subsystem conditions?
Original Abstract Submitted
an electronic device is provided that includes at least one image sensor for acquiring a video feed and one or more displays for presenting a passthrough video feed to a user. the electronic device can include a hierarchical failure detection scheme for detecting critical failures on the device. the hierarchical failure detection scheme may include monitoring a condition of a first subsystem with a second subsystem, monitoring a condition of the second subsystem with a third subsystem, monitoring a condition of the third subsystem with a fourth subsystem, and so on. the displays can operate in a first video passthrough mode or a second video passthrough mode based on the condition of the first subsystem as monitored by the second subsystem, the condition of the second subsystem as monitored by the third subsystem, and/or the condition of the third subsystem as monitored by the fourth subsystem.
- Apple inc.
- Mohamed Al Sharnouby of Dublin CA (US)
- Arun Kannan of Mountain View CA (US)
- Venu M Duggineni of San Jose CA (US)
- Kaushik Raghunath of Pleasanton CA (US)
- Saul H Weiss of Parker CO (US)
- Luke Yoder of Poulsbo WA (US)
- James C Mcilree of Santa Clara CA (US)
- Sankaravadivoo Subramanian of Saratoga CA (US)
- Mukta S Gore of Sunnyvale CA (US)
- Russell L Jones of Westminster CO (US)
- H04N13/383
- G06F3/01
- H04N13/106
- CPC H04N13/383