Abstract: The technologies described herein are generally directed to placing edge hub equipment for virtual radio access networks based on resource availability and performance in advanced networks, such as a fifth generation (5G) network or other next generation networks. For example, a method described herein can include receiving a request to select, for deployment of hub equipment, between site locations, with the deployment of the hub equipment being to connect, in a fronthaul segment, radio unit equipment of the network at a radio location to a backhaul connection equipment. The method can further include, based on the request, the radio location, and the backhaul location, comparing a characteristic of the site locations. Further, the method can include responding to the request with a selected site location that was selected based on a result of the comparing.

Abstract: A system for performing assurance of at least one network element in a network, the system comprising: at least one pacemaker, wherein the at least one pacemaker is a virtual machine in communication with a path to the at least one network element in the network, the at least one pacemaker configured to selectively provide an atomic workload to the path; a configuration analysis microservice in communication with the at least one pacemaker, the configuration analysis microservice is configured to provide a policy to the at least one pacemaker for application of the atomic workload and monitor a pulse from the atomic workload on the path.

Abstract: A system for performing assurance of at least one network element in a network, the system comprising: at least one pacemaker, wherein the at least one pacemaker is a virtual machine in communication with a path to the at least one network element in the network, the at least one pacemaker configured to selectively provide an atomic workload to the path; a configuration analysis microservice in communication with the at least one pacemaker, the configuration analysis microservice is configured to provide a policy to the at least one pacemaker for application of the atomic workload and monitor a pulse from the atomic workload on the path.

Abstract: A controller node in a network implementing software defined networking (SDN) proactively detects network overload conditions in a target node and subsequently prevents the conditions from developing by launching a new virtual network node. The detection and prevention are based on the determination of a probability of failure of the target node as a weighted function of information from the target node and probabilities of failure of related nodes.

Abstract: A system for performing assurance of at least one network element in a network, the system comprising: at least one pacemaker, wherein the at least one pacemaker is a virtual machine in communication with a path to the at least one network element in the network, the at least one pacemaker configured to selectively provide an atomic workload to the path; a configuration analysis microservice in communication with the at least one pacemaker, the configuration analysis microservice is configured to provide a policy to the at least one pacemaker for application of the atomic workload and monitor a pulse from the atomic workload on the path.

Abstract: A controller node in a network implementing software defined networking (SDN) proactively detects network overload conditions in a target node and subsequently prevents the conditions from developing by launching a new virtual network node. The detection and prevention are based on the determination of a probability of failure of the target node as a weighted function of information from the target node and probabilities of failure of related nodes.

Abstract: A controller node in a network implementing software defined networking (SDN) proactively detects network overload conditions in a target node and subsequently prevents the conditions from developing by launching a new virtual network node. The detection and prevention are based on the determination of a probability of failure of the target node as a weighted function of information from the target node and probabilities of failure of related nodes.

Abstract: A controller node in a network implementing software defined networking (SDN) proactively detects network overload conditions in a target node and subsequently prevents the conditions from developing by launching a new virtual network node. The detection and prevention are based on the determination of a probability of failure of the target node as a weighted function of information from the target node and probabilities of failure of related nodes.