BYGGE TECHNOLOGIES INC. (20240213345). REALTIME WIRELESS SYNCHRONIZATION OF LIVE EVENT AUDIO STREAM WITH A VIDEO RECORDING simplified abstract
Contents
REALTIME WIRELESS SYNCHRONIZATION OF LIVE EVENT AUDIO STREAM WITH A VIDEO RECORDING
Organization Name
Inventor(s)
Neil C. Marck of Bainbridge Island WA (US)
Anthony Sharick of Bainbridge Island WA (US)
REALTIME WIRELESS SYNCHRONIZATION OF LIVE EVENT AUDIO STREAM WITH A VIDEO RECORDING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240213345 titled 'REALTIME WIRELESS SYNCHRONIZATION OF LIVE EVENT AUDIO STREAM WITH A VIDEO RECORDING
Simplified Explanation: This patent application describes systems and methods for synchronizing high-quality audio segments of live events with video segments generated by audience members' personal electronic devices in real-time.
Key Features and Innovation:
- Temporally synchronizing separately sourced high-quality audio with video segments in real-time.
- Generating a high fidelity digital audio-visual recording of live events.
- Streaming the recording to other electronic devices in different locations.
- Including narrative audio segments in the recording.
Potential Applications: This technology could be used in live event recording, broadcasting, and streaming industries. It could also be beneficial for content creators, event organizers, and media professionals.
Problems Solved: This technology addresses the challenge of synchronizing audio and video segments from live events captured by different devices, ensuring a high-quality recording for future viewing.
Benefits: The benefits of this technology include enhanced audio-visual quality, real-time synchronization, and the ability to share live event recordings with audiences in different locations.
Commercial Applications: Potential commercial applications of this technology include live event streaming services, content creation platforms, and media production companies looking to enhance their audio-visual recordings.
Prior Art: Prior art related to this technology may include patents or research on audio-visual synchronization systems, live event recording technologies, and real-time streaming solutions.
Frequently Updated Research: Researchers may be exploring advancements in audio-visual synchronization algorithms, real-time streaming protocols, and audience engagement strategies for live event recordings.
Questions about live event audio-visual synchronization: 1. How does this technology improve the viewing experience for audiences of live events? 2. What are the technical challenges involved in synchronizing audio and video segments in real-time?
Original Abstract Submitted
systems and methods are presented herein that facilitate temporally synchronizing, in real time, a separately sourced high quality audio segment of a live event with a video segment that is generated by a recording device associated with a member of the audience. an a-v synchronization application may synchronize a video segment of a live event that is generated from a personal electronic device of an audience member with a high quality audio segment that is separately sourced and generated by professional sound recording equipment at the live event. the result of the temporal synchronization is a high fidelity digital audio visual recording of the live event. in various, the audience member may stream, in real-time, the high fidelity digital audio visual recording to an additional electronic device at a different geo-location. in some examples, narrative audio segments may be also included as part of the high fidelity digital audio visual recording.
- BYGGE TECHNOLOGIES INC.
- Neil C. Marck of Bainbridge Island WA (US)
- Anthony Sharick of Bainbridge Island WA (US)
- H01L29/45
- C23C14/18
- G06F16/00
- G11B27/036
- G11B27/10
- H01L21/04
- H01L29/16
- H04N5/76
- H04N7/16
- H04N7/167
- H04N7/56
- H04N21/2187
- H04N21/2343
- H04N21/2368
- H04N21/41
- H04N21/4147
- H04N21/43
- H04N21/4415
- H04N21/4545
- H04N21/475
- H04N21/485
- H04N21/6334
- H04N21/643
- H04N21/81
- H04N21/845
- H04N21/858
- CPC H01L29/45