Various technologies described herein pertain to controlling migration of a source endpoint in a source telephony system to a destination endpoint in a destination telephony system. The source endpoint is deactivated and the destination endpoint is activated as part of the migration. The migration of endpoints between the source telephony system and the destination telephony system can be performed in an individualized manner. Source information that specifies a state of the source endpoint is retrieved from the source telephony system and destination information that specifies a state of the destination endpoint is retrieved from the destination telephony system. Moreover, a validation is performed concerning whether the source endpoint is migratable to the destination endpoint based on the source information and the destination information. Subsequent to validating that the source endpoint is migratable to the destination endpoint, the migration is performed to deactivate the source endpoint and activate the destination endpoint.

A method and system of managing fixed line network elements. Data from disparate sources is received by a processing layer of a monitoring server via a wireline communication network. The intelligence layer determines whether a first node from the disparate nodes is new or pre-existing. Based on a determination by the intelligence layer whether a node is new or pre-existing, different static rules are applied to the received data from the first node. Contextual information is retrieved from the measurements megastore related to the first node. A root cause of a malfunction of the first node is determined. A notification is generated based on the root cause of the malfunction.

A network device includes a plurality of ports; a switch configured to switch data frames between the plurality of ports; and a processor configured to obtain one or more measurement values based on network traffic associated with the data frames, responsive to detection of a threshold-crossing event of a measurement value, wherein the threshold-crossing event is one of an indication and a precursor of one or more of an abnormal and unexpected event associated with the network traffic, cause collection of a plurality of time series of measurement values of the network traffic by one or more components in the network device, and send a combination of the plurality of time series as a telemetric data stream for analysis by a network management system related to the abnormal/unexpected event.

A Wireless Wide Area Network (WWAN)-enabled remote switch management system includes a management device having a management device WWAN communication subsystem that is configured to transmit management commands from the management device through a WWAN. The WWAN-enabled remote switch management system also includes a switch device having a chassis. A switch device wired communication subsystem is located in the chassis, coupled to a Local Area Network (LAN), and is not coupled to the Internet. A switch device WWAN communication subsystem is located in the chassis and is configured to receive management commands from the management device through the WWAN. A switch management engine is located in the chassis, coupled to the switch device WWAN communication subsystem, and is configured to receive the management commands from the switch device WWAN communication subsystem, and execute the management commands to perform a management action on the switch device.

Disclosed in some examples are methods, systems, and machine-readable mediums which provide for a communication monitoring system configured to automatically monitor and process communication records according to one or more error detection profiles to detect one or more error conditions described in the error detection profiles. The system may then automatically determine a network segment that is experiencing the error condition and acts to correct or avoid the error condition. For example, the system may instruct a conference communication service to re-route a caller over a different network segment, instruct a user's device to use a different network segment, send a message to a reporting computing device of the offending network segment, or the like.

A network device predicts end-to-end channel capacity entropy to permit use of optimal throughput settings in a network. The network device stores class definitions for a network condition; identifies multiple input features to correlate with the class definitions; generates a multiclass classification model that produces an importance score for each of the multiple input features, wherein the importance score reflects the contribution of an input feature to the network condition; selects two or more of the multiple input features with highest importance scores as influential features; predicts the behavior of the influential features to identify a current class, from the class definitions, for the network condition over an end-to-end communication channel; and sends an estimated network condition, based on the current class, to a device for traffic optimization.

A system and method for diagnosing a problem on a packet network. Network performance information associated with data packet communications over a packet network may be collected. A network performance information parameter may be monitored and a determination that the network performance information parameter crosses a threshold value may be made. In response to determining that the network performance information parameter crossed the threshold value, diagnostics may be initiated to determine a cause of the network performance information parameter crossing the threshold value.

A method and system of managing fixed line network elements. Data from disparate sources is received by a processing layer of a monitoring server via a wireline communication network. The intelligence layer determines whether a first node from the disparate nodes is new or pre-existing. Based on a determination by the intelligence layer whether a node is new or pre-existing, different static rules are applied to the received data from the first node. Contextual information is retrieved from the measurements megastore related to the first node. A root cause of a malfunction of the first node is determined. A notification is generated based on the root cause of the malfunction.

A method and system of managing fixed line network elements. Data from disparate sources is received by a processing layer of a monitoring server via a wireline communication network. The intelligence layer determines whether a first node from the disparate nodes is new or pre-existing. Based on a determination by the intelligence layer whether a node is new or pre-existing, different static rules are applied to the received data from the first node. Contextual information is retrieved from the measurements megastore related to the first node. A root cause of a malfunction of the first node is determined. A notification is generated based on the root cause of the malfunction.

A method implemented by a service rendezvous point (SRP) comprises receiving, by a receiver of the SRP, a plurality of register messages from a plurality of service switch points (SSPs), each of the register messages comprising at least one of resource information or service information, each of the SSPs being associated with a different network domain, sending, by a transmitter of the SRP, a plurality of report messages to the plurality of SSPs, each of the report messages comprising resource allocation information for each of the network domains for a service, the resource allocation information including an amount of resources to be allocated at the each of the network domains for the service, and maintaining, at a memory of the SRP, a SSP database storing at least one of the resource allocation information of each of the network domains, the resource information of each of the network domains, and the service information of each of the network domains.