A method and system for allocating network resources are described. The method includes receiving a plurality of forecasted network traffic patterns for a network. A representative subset of the plurality of forecasted network traffic patterns is selected based on an analysis of the plurality of forecasted network traffic patterns using a topology of the network. The selected representative subset of the plurality of forecasted network traffic patterns is used to determine a resource allocation for the network.

A system and method for distributing packets in a network arc disclosed. The method comprises a step of receiving at least one data packet at a first node front a second node. The method also comprises a step of determining a current set of weights which are applied by the second node to distribute data packets across the first plurality of links. The received data packets are analysed to determine if the current set of weights are to be adjusted (step S102). When it is determined that the current set of weights is to be adjusted, an adjusted set of weights is generated by determining an adjustment factor (step S104). The adjustment factor is applied to the current weight for the selected link and at least one other current w eight in the current set of w eights.

The present disclosure relates to a communication method and system for converging a 5.sup.th-generation (5G) communication system for supporting higher data rates beyond a 4.sup.th-generation (4G) system with a technology for internet of things (IoT). The present disclosure may be applied to intelligent services based on 5G communication technology and IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. A system and a method for routing a data packet to a user equipment (UE) in a long term evolution-wireless local area network (LTE-WLAN) aggregation are provided. The system includes an evolved node B (eNB) with a packet data convergence protocol (PDCP) adaptation layer that adds a header to the data packet.

Systems, methods, and instrumentalities are disclosed for enhancing performance of multi-path communications. Multi-path communication performance may be enhanced by determining whether multipath communications share a congested router. A multi-path real-time communication protocol may provide techniques to prevent, detect, communicate and respond to a shared congested router. A shared congested router may be prevented, and/or detected using one or more detection techniques.

A method and apparatus for transmitting a service flow based on a flexible Ethernet, where a bandwidth resource corresponding to a bundling group (BG) of a flexible Ethernet is divided into M timeslots, service data of a service flow is encapsulated in N timeslots in the M timeslots, and the method includes: when a first PHY in the BG fails, determining, based on a preconfigured first timeslot configuration table (TCT), a target timeslot (TTS) in the N timeslots that is mapped to the first PHY; searching the M timeslots for an idle timeslot (ITS) based on the first TCT; adjusting the first TCT when a quantity of ITSs is greater than or equal to a quantity of TTSs, so that all the N timeslots are mapped to PHYs other than the first PHY; and transmitting the service flow by using the mapped PHYs of the bundling group.

Implementations of the disclosure are directed to network layer channel bonding. In one implementation, a method comprises: operating a first communication device to transmit data to a second communication device over multiple communication links, each of the communication links associated with a respective communication medium; receiving, at the first communication device, an input data stream for transmission to the second communication device, the input data stream comprising packets; determining, at the first communication device, a throughput and latency of each of the communication links; based on the determined throughput and latency of each of the communication links: dividing the packets into multiple sets, each of the sets configured to be transmitted by the first communication device over a respective one of the communication links; and transmitting, from the first communication device to the second communication device, each of the sets of packets over the set's respective communication link.

A network element includes multiple output ports and circuitry. The multiple output ports are configured to transmit packets over multiple respective network links of a communication network. The circuitry is configured to receive from the communication network, via one or more input ports of the network element, packets that are destined for transmission via the multiple output ports, to monitor multiple data-counts, each data-count corresponding to a respective output port, and is indicative of a respective data volume of the packets forwarded for transmission via the respective output port, to select for a given packet, based on the data-counts, an output port among the multiple output ports, and to forward the given packet for transmission via the selected output port.

An aggregated networking device maintenance system includes a first aggregated networking device and a second aggregated networking device that are coupled together, and each coupled to a third networking device. The first aggregated networking device receives a maintenance instruction and, in response, transmits a first maintenance notification message to the second aggregated networking device, and a second maintenance notification message to the third networking device that prevents the third networking device from transmitting data traffic to the first aggregated networking device. Maintenance operations on the first aggregated networking device may then be performed, and when the first aggregated networking device determines that the maintenance operations have completed, it transmits a first maintenance completed notification message to the second aggregated networking device, and a second maintenance completed notification message to the third networking device that causes the third networking device to resume transmitting data traffic to the first aggregated networking device.

An automatic aggregated networking device backup link configuration system includes a first networking device having first interfaces, and a second networking device having second interfaces. The first networking device receives second networking device information via at least some of the first interfaces coupled via respective Inter-Chassis Links (ICLs) in an aggregated ICL to respective ones of the second interfaces, and uses the second networking device information to determine that each of the at least some of the first interfaces provide the aggregated ICL to the second networking device. The first networking device then identifies one of the first interfaces that is coupled to a respective one of the second interfaces by a link that is not part of the aggregated ICL, and automatically configures the one of the first interfaces to provide the link that is not part of the aggregated ICL as a backup link.

A method includes establishing a communication link between a communication interface of a first computing device and a virtual machine executed by a second computing device, receiving an available bandwidth parameter associated with the communication link, receiving link characteristic data associated with the communication interface, and configuring a characteristic of the communication link based on the available bandwidth parameter and the link characteristic data.

A system includes a first computing device including a communication interface and executing a policy manager and a second computing device executing a virtual machine. The policy manager is to receive an available bandwidth parameter associated with the communication link, receive link characteristic data associated with the communication interface, and configure a characteristic of the communication link based on the available bandwidth parameter and the link characteristic data.