Leveraging geographically proximate devices to reduce network traffic generated by digital collaboration

A system to identify and leverage geographically proximate client devices to reduce network traffic associated with facilitating digital collaboration sessions in a real-world environment. Embodiments enable a user to initiate a digital collaboration session and to limit participation in the digital...

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Hauptverfasser:	Wampler, Derrick Charles, Cabrera, Laura, Lenox, Douglas James, Monson, Aaron James, Mulcahy, Kathleen Patricia, Kviz, Timothy David, Pasch, Tyler H, Gonzalez Aguirre, Ana Sofia, Sierra, Daniel Bernardo, Graham, Kelly Jean
Format:	Patent
Sprache:	eng
Schlagworte:	ACOUSTICS ELECTRIC COMMUNICATION TECHNIQUE ELECTRICITY ELECTROPHONIC MUSICAL INSTRUMENTS MUSICAL INSTRUMENTS PHYSICS TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHICCOMMUNICATION
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creator	Wampler, Derrick Charles Cabrera, Laura Lenox, Douglas James Monson, Aaron James Mulcahy, Kathleen Patricia Kviz, Timothy David Pasch, Tyler H Gonzalez Aguirre, Ana Sofia Sierra, Daniel Bernardo Graham, Kelly Jean
description	A system to identify and leverage geographically proximate client devices to reduce network traffic associated with facilitating digital collaboration sessions in a real-world environment. Embodiments enable a user to initiate a digital collaboration session and to limit participation in the digital collaboration session to client devices that are physically located within a geofence (e.g., a virtual geographic boundary). Other client devices that are located within the geofence are identified and enabled to join the digital collaboration session. participants may each use their own client device to contribute to the digital collaboration session. Participants can save individual segments of the digital collaboration session by indicating an interest immediately after the segments occur. Client devices then upload data for the segment for enhancement. Enhancing the segment includes adjusting a timing of at least some of the participants' contributions to more closely match an underlying rhythmic pattern of the segment of interest.
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subjects	ACOUSTICS ELECTRIC COMMUNICATION TECHNIQUE ELECTRICITY ELECTROPHONIC MUSICAL INSTRUMENTS MUSICAL INSTRUMENTS PHYSICS TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHICCOMMUNICATION
title	Leveraging geographically proximate devices to reduce network traffic generated by digital collaboration
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