Abstract: Networking device and method using a neural network for applying delays based on port positions. The networking device comprises a plurality of ports and applies a delay to IP packets received via a given port among the plurality of ports. The delay is based on a position of the given port among the plurality of ports. The neural network has been trained to infer the delay to be applied to the IP packet received via the given port. In one implementation, the position of the given port is one of the inputs of the neural network.
Abstract: A system comprising cascaded standardized hot-pluggable transceiving units for providing a multiviewer functionality. A first layer comprises a plurality of transceiving units implementing a scaling functionality followed by a pre-positioning functionality. A second layer comprises a transceiving unit implementing a positioning functionality. Source video streams are scaled by the first layer, and further combined to generate primary mosaiced video streams. The primary mosaiced video streams are combined by the second layer to generate a secondary mosaiced video stream. Alternatively, the first layer comprises at least one transceiving unit only implementing the scaling functionality. Source video streams are scaled by the first layer to generate scaled video streams. The scaled video streams are combined by the second layer to generate a mosaiced video stream.
Type:
Grant
Filed:
November 21, 2019
Date of Patent:
January 12, 2021
Assignee:
Riedel Communications Canada Inc.
Inventors:
Renaud Lavoie, Louis Caron, Joel Martel, Daniel Tremblay
Abstract: Standardized hot-pluggable transceiving unit implementing a cloud gateway functionality. The transceiving unit receives a source video IP flow. At least one processing unit in the housing executes a HTTP client and a conversion function. The HTTP client establishes a connection with a HTTP server hosted by a cloud video server, and receives the source video IP flow from the HTTP server of the cloud video server via the first connector. The source video IP flow uses one of the HTTP or the HTTPS protocol. The conversion function generates a video stream based on the source video IP flow, and the video stream is outputted by the transceiving unit. Alternatively, the transceiving unit receives a source video stream converted in a video IP flow by the conversion function, and the HTTP client uploads the video IP flow to the HTTP server of the cloud video server.