Systems and methods for performing User Plane (UP) path selection or reselection over a communications network with a 3.sup.rd party entity, and for notifying network entities of UP changes in a communications network, are disclosed. The method includes: receiving an application program interface based request for UP path selection from the 3.sup.rd party entity; performing a validation and authorization procedure with the request; transmitting a UP path selection configuration request to a Control Plane Function that maintains configuration data; obtaining a reference number confirming the UP path selection configuration request; and installing the UP path selection according to the reference number.

In examples, a mobile network apparatus, a computer program and a method is discussed, including at least one processor, and at least one memory storing program instructions that, when executed by the at least one processor, cause to: Receive a create request for requesting data connectivity. Based on the create request, perform a static load balancing. Based on the static load balancing, perform a caching relating to a dynamic load balancing and perform the dynamic load balancing. A load balancing method may be scalable with a grace period.

The present invention discloses a user equipment migration method and device to implement flexible migration of UE in a core network device pool. The method includes that a source core network device receives a migration instruction carrying first identification information of a target core network device and migration information of to-be-migrated UE, sends an indication message used to instruct the to-be-migrated UE to detach, and sends a migration rule to an access network device according to the migration instruction, so that the access network device migrates the to-be-migrated UE from the source core network device to the target core network device.

A communication system includes a first device configured to transmit first data, a second device, a third device, a fourth device, and a storage device configured to store correspondence information, and when the second device is in the first state, the second device transmits the first data to the address of the third device, and when the second device is in the second state, the second device transmits the first data to the fourth device, the second device notifies the fourth device of the address of the second device, the fourth device receives the first data and notifies the storage device of the address of the second device, the storage device notifies the fourth device of the address of the third device associated with the address of the second device based on the correspondence information, and the fourth device transmits the first data to the address of the third device.

Provided are a communications apparatus including an LTE central node including at least a pair of radio base stations, a processor, and at least a pair of virtualized cores respectively and operatively connected with the pair of radio base stations, each radio base station and each core being configured together on a separate, common platform and forming a base station and core set, and each base station and core set being configured to selectively coordinate communications traffic; and, in a radio access network (RAN), a communications method including receiving a first signal at a central node comprising at least a pair of radio base station and virtualized core sets, in which each set is formed as a system on a chip (SoC), and transmitting a second signal, based on the first signal, each base station and core set being configured to selectively coordinate communications traffic.

This disclosure relates to a system and method for dynamically managing load on network devices in a distributed manner. As the proliferation of data rich content and increasingly more capable mobile devices has continued, the amount of data communicated over mobile operator's networks has exponentially increased. Upgrading the existing network to accommodate increased data traffic is neither desirable nor practical. One way to accommodate increased data traffic is by utilizing network resources more efficiently. This disclosure provides systems and methods for efficiently utilizing network resources by dynamically configuring the network in a distributed manner based on real-time load information.

An information processing device including: a processor configured to: determine a priority degree of each of a plurality of communication terminals based on service information indicative of a service utilizable by each of the plurality of the communication terminals, the more number of service utilizable by a communication terminal the higher priority degree of the communication terminal, for each communication terminal selected in descending order of the priority degree, identify at least one of a plurality of relay apparatuses capable of being utilized by the communication terminal based on the service information, select a relay apparatus to provide the service to the communication terminal from the at least one of the plurality of relay apparatus based on load information indicative of load applied to each relay apparatus.

A system and method for dynamically switching transmission of selected data from cellular core network to unidirectional point-to-multipoint downlink network or from unidirectional point-to-multipoint downlink network to cellular core network based on traffic flow analysis is provided. The system includes a cellular packet core 206, a broadcast offload packet core (BO-PC) 302, and a load manager 202. The cellular packet core 206 controls a cellular radio access network (RAN) 412 for providing bidirectional connectivity to a converged user equipment (UE) (204) to transmit or receive selected data through the cellular packet core 206 and the RAN 412. The BO-PC 302 controls a broadcast radio access network (RAN). The broadcast radio access network (RAN) includes at least one Broadcast Radio Head (BRH) 322 for providing unidirectional downlink path to the converged user equipment (UE) 204 to receive selected data through the at least one Broadcast Radio Heads (BRH) 322.

A communication aggregation system according to an exemplary embodiment of the invention includes a plurality of devices (3) to (6) that transmit a larger amount of data when an abnormality is found compared with the amount of data transmitted in normal times, a gateway device (1) that communicates with devices included in a first group out of a plurality of devices, a gateway device (2) that communicates with devices included in a second group, and a control device (7) that, when the amount of data transmitted from some device increases due to detection of an abnormality and a difference in processing loads between the gateway devices exceeds a first threshold, changes a group to which at least one device out of the plurality of devices (3) to (6) belongs so that a difference in the processing loads falls below a second threshold.

The subject matter described herein relates to methods, systems, and computer readable media for test system connection resiliency. In some examples, a method for distributing monitored network traffic includes monitoring S1-MME traffic and S6a traffic in a core network of a telecommunications network. The method includes decrypting encrypted S1-MME traffic using information extracted from the S6a traffic. The method includes load balancing between a plurality of monitoring nodes using the decrypted S1-MME traffic.