Devices, methods, systems, and computer-readable media for using network connection health data, from multiple sources, to determine whether to switch a network connection on redundant IP networks using VoIP protocol are described herein. One non-transitory computer readable medium includes instructions for connecting an end device used by a first party to communicate with a second party through a VoIP network connection via a VoIP network device, connecting a first network device operating a first network to the VoIP device, connecting a second network device operating a second network to the VoIP device, if there are indications of a fault on at least two OSI layers, then switching from communicating VoIP connection related packets of data on the first network to communicating the VoIP connection related packets of data on the second network.

In a cable network, embodiments detect and remediate a non-responsive customer premise equipment (CPE) device in a customer's premise with minimal or no interaction with a customer. Embodiments may detect and remediate a non-responsive CPE device without rebooting the non-responsive CPE device or the associated cable modem. Embodiments include troubleshooting a data link layer (e.g., Open System Interconnection (OSI) layer 2, or media access control (MAC) layer) and a network layer (e.g., OSI layer 3, or Internet layer) between a service operator network and the non-responsive CPE device. Embodiments include a guided integration and a proactive integration method, computer program product, and system to reduce and/or eliminate the need for a customer service representative to reboot a cable modem, and/or for a customer to reboot a non-responsive CPE device resulting in a fast and less disruptive service experience for the customer.

The present disclosure relates to: a communication technique for merging IoT technology with a 5G communication system for supporting a higher data rate than a beyond 4G system; and a system therefor. The present disclosure can be applied to intelligent services (for example, smart homes, smart buildings, smart cities, smart cars or connected cars, healthcare, digital education, small businesses, security- and safety-related services, and the like) on the basis of 5G communication technology and IoT-related technology. A controller node is disclosed. The controller node comprises: a processor for generating a network element (NE) list on the basis of time zone information and threshold information obtained from a database (DB) node; and a communication interface for receiving a configuration information request message from a network element corresponding to the network element list and transmitting a configuration information response message to the network element in response to the configuration information request message.

A system can include circuitry that processes a URL for information; circuitry that transmits at least a portion of the information via a network interface; circuitry that receives metadata via the network interface responsive to the transmission of at least a portion of the information; circuitry that associates at least a portion of the metadata with a short URL; and circuitry that transmits the short URL. Various other apparatuses, systems, methods, etc., are also disclosed.

Devices, methods, systems, and computer-readable media for using network connection health data, from multiple sources, to determine whether to switch a network connection on redundant IP networks using VoIP protocol are described herein. One non-transitory computer readable medium includes instructions for connecting an end device used by a first party to communicate with a second party through a VoIP network connection via a VoIP network device, connecting a first network device operating a first network to the VoIP device, connecting a second network device operating a second network to the VoIP device, if there are indications of a fault on at least two OSI layers, then switching from communicating VoIP connection related packets of data on the first network to communicating the VoIP connection related packets of data on the second network.

A web handling system is described, including a plurality of web handling controllers and a web handling process logic controller networked to form a ring network. A processor of the web handling process logic controller being configured to determine whether a fault exists within the ring network, and responsive to determining that a fault exists within the ring network, to generate and send signals throughout the ring network to switch the configuration of the ring network to at least one linear network.

Embodiments of the present disclosure relate to methods, apparatuses and computer program products for network optimization in a wireless network. A method includes determining a plurality of communication performance metrics associated with a plurality of access points; determining, based on the plurality of communication performance metrics, a plurality of communication performance problems to be solved for the plurality of access points; determining, from a predetermined set of optimization strategies, an optimization strategy for an access point of the plurality of access points based on the plurality of communication performance problems; and causing the access point to apply the determined optimization strategy.

A computing system receives, from a client device, a first request for access to a single page application associated with the computing system. A gateway of the computing system intercepts the first request before it reaches a shell service associated with the single page application. The gateway sends a second request for the single page application to the shell service. Based on the single page application request, the gateway determines that the shell service is experiencing a failure. Responsive to determining that the shell service is experiencing a failure, the gateway retrieves, from a content delivery network, a uniform resource locator (URL) associated with a time-lapse hypertext markup language (HTML) of the single page application. The gateway redirects the client device to the time-lapse HTML of the single page application using the URL.

In one embodiment, a device obtains performance data regarding failures of a tunnel in a network. The device generates a failure profile for the tunnel by applying machine learning to the performance data regarding the failures of the tunnel. The device determines, based on the failure profile for the tunnel, whether the tunnel exhibits failure flapping behavior. The device adjusts one or more Bidirectional Forwarding Detection (BFD) probing timers used to detect failures of the tunnel, based on the determination as to whether the tunnel exhibits failure flapping behavior.

There is provided mechanisms for service interruption reporting of a multicast bearer for group communications. A method is performed by a client node. The method comprises obtaining instruction from a control node of the multicast bearer, where the instruction instructs whether or not the client node is to report service interruption of the multicast bearer. The method comprises detecting service interruption of the multicast bearer. The method comprises selectively reporting the service interruption to the control node in accordance with the instruction.