Techniques for generating and monitoring service level objectives (SLOs) are disclosed. The techniques include an SLO platform performing: storing a first SLO definition of a first SLO including a first error budget for a first metric associated with a first service; storing a second SLO definition of a second SLO including a second error budget for a second metric associated with a second service; obtaining first telemetry data from a first data source associated with the first service; obtaining second telemetry data from a second data source associated with the second service; monitoring the first SLO at least by computing the first metric based on the first telemetry data and evaluating the first metric against the first error budget; and monitoring the second SLO at least by computing the second metric based on the second telemetry data and evaluating the second metric against the second error budget.

Techniques are described for monitoring application performance in a computer network. For example, a network management system (NMS) includes a memory storing path data received from a plurality of network devices, the path data reported by each network device of the plurality of network devices for one or more logical paths of a physical interface from the given network device over a wide area network (WAN). Additionally, the NMS may include processing circuitry in communication with the memory and configured to: determine, based on the path data, one or more application health assessments for one or more applications, wherein the one or more application health assessments are associated with one or more application time periods for a site, and in response to determining at least one failure state, output a notification including identification of a root cause of the at least one failure state.

Embodiments of a system and method for providing DRX enhancements in LTE systems are generally described herein. In some embodiments, a system control module is provided for controlling communications via a communications interface. A processor is coupled to the system control module and is arranged to implement an inactivity timer and an on-duration timer for determining an active time for monitoring subframes on the physical downlink control channel for control signals, the processor further monitoring subframes after the active time.

Embodiments of a system and method for providing DRX enhancements in LTE systems are generally described herein. In some embodiments, a system control module is provided for controlling communications via a communications interface. A processor is coupled to the system control module and is arranged to implement an inactivity timer and an on-duration timer for determining an active time for monitoring subframes on the physical downlink control channel for control signals, the processor further monitoring subframes after the active time.

A method and system for communicating with IoT devices connected to a vehicle to gather information related to device operation or performance is disclosed. The system makes a copy of at least a portion of the device's non-volatile memory and/or receives IoT device data (e.g., sensor data and/or log files etc.) from an IoT device that recently failed. The system determines which log files and/or sensor data, for example, the IoT device created before and/or after a failure. After gathering this information, the system stores the information, sends it to a storage destination for further analysis and diagnostics to troubleshoot the failure and send a fix or software update to the IoT device. The information can also be placed into secondary storage to comply with regulatory, insurance, or legal purposes.

A method and system for communicating with IoT devices connected to a vehicle to gather information related to device operation or performance is disclosed. The system makes a copy of at least a portion of the device's non-volatile memory and/or receives IoT device data (e.g., sensor data and/or log files etc.) from an IoT device that recently failed. The system determines which log files and/or sensor data, for example, the IoT device created before and/or after a failure. After gathering this information, the system stores the information, sends it to a storage destination for further analysis and diagnostics to troubleshoot the failure and send a fix or software update to the IoT device. The information can also be placed into secondary storage to comply with regulatory, insurance, or legal purposes.

Aspects of the present disclosure involve systems, methods, devices, and the like for generating highly scalable temporal graph databases. In one embodiment, a novel architecture is presented that enables the identification of mutation or changes in graphs. For the identification a combination of graph-based modeling and journal entry is used. Events occurring are consumed and changes are ingested, transformed for use by a graph simulation system. The changes are journaled using a vertex centric temporal journaling schema.

A system and method for recommending a similar incident in operations technologies and a related device are provided. The method includes: obtaining alarm information of a to-be-processed incident; obtaining incident diagnosis information of M dimensions based on the alarm information, wherein the M dimensions include M different perspectives of incident diagnosis, and M is an integer greater than 1; performing processing based on the incident diagnosis information of the M dimensions, to obtain a feature of the to-be-processed incident; obtaining a plurality of similarity degrees through calculation based on the feature of the to-be-processed incident and features of a plurality of historical incidents, wherein the plurality of similarity degrees represent respective similarity degrees between the to-be-processed incident and the plurality of historical incidents; and obtaining a similar incident from the plurality of historical incidents through filtering based on the plurality of similarity degrees, and recommending the similar incident.

A system and method for recommending a similar incident in operations technologies and a related device are provided. The method includes: obtaining alarm information of a to-be-processed incident; obtaining incident diagnosis information of M dimensions based on the alarm information, wherein the M dimensions include M different perspectives of incident diagnosis, and M is an integer greater than 1; performing processing based on the incident diagnosis information of the M dimensions, to obtain a feature of the to-be-processed incident; obtaining a plurality of similarity degrees through calculation based on the feature of the to-be-processed incident and features of a plurality of historical incidents, wherein the plurality of similarity degrees represent respective similarity degrees between the to-be-processed incident and the plurality of historical incidents; and obtaining a similar incident from the plurality of historical incidents through filtering based on the plurality of similarity degrees, and recommending the similar incident.

A method includes: receiving a current data packet of a target service; adding detection indication information to the current data packet, to obtain a target data packet, where the detection indication information includes a target phase category corresponding to the current data packet, the target phase category is used to indicate a target phase in at least one key phase in which the current data packet is located in the target service, and the detection indication information is used to indicate to detect the current data packet; and transmitting the target data packet to a next hop node.