18614014. Identifying Co-Located Devices within a Teleconferencing Session simplified abstract (Google LLC)
Contents
Identifying Co-Located Devices within a Teleconferencing Session
Organization Name
Inventor(s)
Henrik Fahlberg Lundin of Sollentuna (SE)
Mans Gustaf Sebastian Ullberg of Stockholm (SE)
Identifying Co-Located Devices within a Teleconferencing Session - A simplified explanation of the abstract
This abstract first appeared for US patent application 18614014 titled 'Identifying Co-Located Devices within a Teleconferencing Session
Simplified Explanation: The patent application describes a system where a participant's device in a teleconferencing session receives mixed audio data from other devices in the session. By comparing the mixed audio with the audio captured by the other devices, the system can determine if the participant's device is physically close to any of the other devices.
Key Features and Innovation:
- Participant's device receives mixed audio data from other devices in a teleconferencing session.
- System compares mixed audio with audio from other devices to determine physical proximity.
- Identifies featured devices that contribute most actively to the mixed audio.
- Receives co-location information for each featured device.
- Makes a determination if a featured device is physically close to the participant's device.
Potential Applications: This technology could be used in teleconferencing systems to enhance collaboration and communication among participants.
Problems Solved: This technology helps in identifying the physical proximity of devices in a teleconferencing session, which can improve the overall user experience and interaction.
Benefits:
- Enhanced collaboration in teleconferencing sessions.
- Improved user experience by identifying physical proximity of devices.
- Better communication among participants.
Commercial Applications: Potential commercial applications include teleconferencing systems for businesses, educational institutions, and remote teams.
Prior Art: Researchers can explore prior art related to audio processing in teleconferencing systems to understand the evolution of similar technologies.
Frequently Updated Research: Stay updated on advancements in audio processing technologies for teleconferencing systems to leverage the latest innovations in this field.
Questions about Teleconferencing Proximity Detection: 1. How does this technology impact the overall user experience in teleconferencing sessions? 2. What are the potential privacy concerns related to detecting physical proximity in teleconferencing sessions?
Original Abstract Submitted
A participant computing device connected to a teleconferencing session receives mixed audio data from a teleconference computing system orchestrating the session. The mixed audio data comprises a mix of audio captured by other devices connected to the session. The mixed audio and audio captured by the other devices prior to receipt of the mixed audio data are compared to determine that the participant computing device is co-located with at least one of the other devices. Information indicating that some of the other devices are featured devices that most actively contribute to the mixed audio is obtained. Co-location information for each of the featured devices is received. The co-location information is indicative of whether a featured device is co-located with the participant computing device. Based on the co-location information, a determination is made that one of the featured devices is co-located with the participant computing device.