Abstract: A device may receive channel data associated with a channel provided between a network and a user device, and may calculate, based on the channel data, key performance indicator data that includes a plurality of key performance indicators for the channel. The device may multiply the plurality of key performance indicators by factors to generate factored key performance indicator data that includes a plurality of factored key performance indicators. The device may apply weights to the plurality of factored key performance indicators of the factored key performance indicator data to generate factored weighted key performance indicator data that includes a plurality of factored weighted key performance indicators. The device may calculate a quality indicator for the channel based on the factored weighted key performance indicator data, and may perform one or more actions based on the quality indicator for the channel.

Abstract: A network device may receive multi-access edge computing (MEC) proximity service information that identifies a set of MEC devices and a set of network services supported by respective MEC devices of the set of MEC devices. The network device may transmit, to a base station, at least a portion of the MEC proximity service information for broadcasting by the base station. The network device may receive, from a user device, a request to establish a peer-to-peer connection with a MEC device for the network service. The network device may authenticate the user device for access to the network service. The network device may transmit, to the user device and the MEC device, connection information that enables the user device and the MEC device to establish the peer-to-peer connection, based on authenticating the user device for access to the network service.

Abstract: Systems and methods provide a latency certification service. One or more network devices in an application service layer network receive a service request for a latency certification service and instantiate a Transmission Control Protocol (TCP) proxy for a data session between an application server device and a user equipment (UE) device. The one or more network devices obtain a digital certificate for the TCP proxy. The one or more network devices receive, at the TCP proxy, a data packet from the UE device; apply a certified timestamp to the data packet to form a certified timestamped data packet; and forward the certified timestamped data packet to the application server device.

Abstract: A method, a device, and a non-transitory storage medium are described in which a network allocation service is provided. The network allocation service may use available network resource information of an application service layer network of a first type, such as a multi-access edge computing network, and application service demand information of an application to determine whether a performance metric of the application service would be satisfied. The performance metric may include a threshold service time that includes a processing time associated with a processing of an application service request and response, by the application service layer network, and a transit time associated the application service response from the application service layer network to an end device. The network allocation service may select the first type or a second type of application service layer network depending on the outcome of the determination.

Abstract: A device may receive channel data associated with a channel provided between a network and a user device, and may calculate, based on the channel data, key performance indicator data that includes a plurality of key performance indicators for the channel. The device may multiply the plurality of key performance indicators by factors to generate factored key performance indicator data that includes a plurality of factored key performance indicators. The device may apply weights to the plurality of factored key performance indicators of the factored key performance indicator data to generate factored weighted key performance indicator data that includes a plurality of factored weighted key performance indicators. The device may calculate a quality indicator for the channel based on the factored weighted key performance indicator data, and may perform one or more actions based on the quality indicator for the channel.

Abstract: A device may receive channel data associated with a channel provided between a network and a user device, and may calculate, based on the channel data, key performance indicator data that includes a plurality of key performance indicators for the channel. The device may multiply the plurality of key performance indicators by factors to generate factored key performance indicator data that includes a plurality of factored key performance indicators. The device may apply weights to the plurality of factored key performance indicators of the factored key performance indicator data to generate factored weighted key performance indicator data that includes a plurality of factored weighted key performance indicators. The device may calculate a quality indicator for the channel based on the factored weighted key performance indicator data, and may perform one or more actions based on the quality indicator for the channel.

Abstract: A network device may receive multi-access edge computing (MEC) proximity service information that identifies a set of MEC devices and a set of network services supported by respective MEC devices of the set of MEC devices. The network device may transmit, to a base station, at least a portion of the MEC proximity service information for broadcasting by the base station. The network device may receive, from a user device, a request to establish a peer-to-peer connection with a MEC device for the network service. The network device may authenticate the user device for access to the network service. The network device may transmit, to the user device and the MEC device, connection information that enables the user device and the MEC device to establish the peer-to-peer connection, based on authenticating the user device for access to the network service.

Abstract: A network device may receive multi-access edge computing (MEC) proximity service information that identifies a set of MEC devices and a set of network services supported by respective MEC devices of the set of MEC devices. The network device may transmit, to a base station, at least a portion of the MEC proximity service information for broadcasting by the base station. The network device may receive, from a user device, a request to establish a peer-to-peer connection with a MEC device for the network service. The network device may authenticate the user device for access to the network service. The network device may transmit, to the user device and the MEC device, connection information that enables the user device and the MEC device to establish the peer-to-peer connection, based on authenticating the user device for access to the network service.

Abstract: A multi-access edge computing (MEC) node of a MEC network may receive, from a user device a first request to communicate via a peer-to-peer connection routed through a MEC network. The MEC node may identify one or more candidate devices that are available to communicate with the user device via the peer-to-peer connection. The MEC node may provide, to a particular candidate device of the one or more candidate devices, a second request to communicate via the peer-to-peer connection. The MEC node may receive, from the particular candidate device, an acceptance to communicate via the peer-to-peer connection. The MEC node may route data between the user device and the particular candidate device via the peer-to-peer connection.

Abstract: A network device may receive multi-access edge computing (MEC) proximity service information that identifies a set of MEC devices and a set of network services supported by respective MEC devices of the set of MEC devices. The network device may transmit, to a base station, at least a portion of the MEC proximity service information for broadcasting by the base station. The network device may receive, from a user device, a request to establish a peer-to-peer connection with a MEC device for the network service. The network device may authenticate the user device for access to the network service. The network device may transmit, to the user device and the MEC device, connection information that enables the user device and the MEC device to establish the peer-to-peer connection, based on authenticating the user device for access to the network service.

Abstract: A multi-access edge computing (MEC) node selection platform may receive, from a user device, a request to access a service via MEC. The MEC node selection platform may determine a geographical location of the user device. The MEC node selection platform may obtain a MEC node performance report, wherein the MEC node performance report indicates one or more performance indicators for one or more candidate MEC nodes configured to provide access to the service. The MEC node selection platform may select, based on the one or more performance indicators and the geographical location of the user device, a MEC node from one or more candidate MEC nodes. The MEC node selection platform may provide, to the user device, information to be used by the user device to communicate with the MEC node.

Abstract: A multi-access edge computing (MEC) node of a MEC network may receive, from a user device a first request to communicate via a peer-to-peer connection routed through a MEC network. The MEC node may identify one or more candidate devices that are available to communicate with the user device via the peer-to-peer connection. The MEC node may provide, to a particular candidate device of the one or more candidate devices, a second request to communicate via the peer-to-peer connection. The MEC node may receive, from the particular candidate device, an acceptance to communicate via the peer-to-peer connection. The MEC node may route data between the user device and the particular candidate device via the peer-to-peer connection.

Abstract: A device may receive channel data associated with a channel provided between a network and a user device, and may calculate, based on the channel data, key performance indicator data that includes a plurality of key performance indicators for the channel. The device may multiply the plurality of key performance indicators by factors to generate factored key performance indicator data that includes a plurality of factored key performance indicators. The device may apply weights to the plurality of factored key performance indicators of the factored key performance indicator data to generate factored weighted key performance indicator data that includes a plurality of factored weighted key performance indicators. The device may calculate a quality indicator for the channel based on the factored weighted key performance indicator data, and may perform one or more actions based on the quality indicator for the channel.

Abstract: A method, a device, and a non-transitory storage medium are described in which a network allocation service is provided. The network allocation service may use available network resource information of an application service layer network of a first type, such as a multi-access edge computing network, and application service demand information of an application to determine whether a performance metric of the application service would be satisfied. The performance metric may include a threshold service time that includes a processing time associated with a processing of an application service request and response, by the application service layer network, and a transit time associated the application service response from the application service layer network to an end device. The network allocation service may select the first type or a second type of application service layer network depending on the outcome of the determination.

Abstract: Systems and methods provide a latency certification service. One or more network devices in an application service layer network receive a service request for a latency certification service and instantiate a Transmission Control Protocol (TCP) proxy for a data session between an application server device and a user equipment (UE) device. The one or more network devices obtain a digital certificate for the TCP proxy. The one or more network devices receive, at the TCP proxy, a data packet from the UE device; apply a certified timestamp to the data packet to form a certified timestamped data packet; and forward the certified timestamped data packet to the application server device.