Systems and methods are provided for automatically responding to network connectivity issues in a media stream. One example method includes transmitting, from a first computing device, a media stream to one or more secondary computing devices. A network connectivity issue between the first computing device and one or more of the secondary computing devices is detected. If a network connectivity issue is detected, a notification is transmitted to one or more of the secondary computing devices.

Systems and methods are provided for automatically responding to network connectivity issues in a media stream. One example method includes transmitting, from a first computing device, a media stream to one or more secondary computing devices. A network connectivity issue between the first computing device and one or more of the secondary computing devices is detected. If a network connectivity issue is detected, a notification is transmitted to one or more of the secondary computing devices.

A method for IP [=Internet Protocol] communication between a mobile terminal and its correspondent node in a mobile radio network. The method comprises establishing an IP connection between the mobile terminal and its correspondent node. After detecting a period of inactivity in the IP connection, keep-alive messages are sent via the IP connection at predetermined intervals, which are varied. The method comprises monitoring the lengths of several periods of inactivity at which the mobile radio network disconnects the IP connection.

A method for IP [=Internet Protocol] communication between a mobile terminal and its correspondent node in a mobile radio network. The method comprises establishing an IP connection between the mobile terminal and its correspondent node. After detecting a period of inactivity in the IP connection, keep-alive messages are sent via the IP connection at predetermined intervals, which are varied. The method comprises monitoring the lengths of several periods of inactivity at which the mobile radio network disconnects the IP connection.

Disclosed are systems and methods for node management performed by a client driver of a client device comprising receiving cluster topology data from the cluster system; transmitting, a data request to each of a plurality of nodes in a cluster system; receiving a reply from each of the nodes that are responsive; assigning, by the client driver, based on the received replies, a responsive status for each of the nodes that are responsive or a non-responsive status for each of nodes that are non-responsive; updating a listing of management data, wherein the management data includes: an identification of each of the plurality of nodes, and a current status of each of the plurality of nodes; and routing, by the client driver, a client request to one of the plurality of nodes that are responsive based on the cluster topology data.

Examples described herein include systems and methods for providing dynamic serviceability for a software-defined data center (“SDDC”). An example method can include collecting data-center metrics from a management service that monitors the SDDC, filtering the data-center information based on a predetermined list of metrics provided by a partner entity, and translating the filtered data-center information into a partner-specific format requested by the partner entity. The example method can also include generating metadata associated with the translated data-center information and transmitting the metadata and translated data-center information to a partner site associated with the partner entity. If the partner site is not available, the method can include transmitting the information to a partner-accessible storage location and, when the partner site becomes available, identifying the storage location and failed attempt to deliver the information.

Examples described herein include systems and methods for providing dynamic serviceability for a software-defined data center (“SDDC”). An example method can include collecting data-center metrics from a management service that monitors the SDDC, filtering the data-center information based on a predetermined list of metrics provided by a partner entity, and translating the filtered data-center information into a partner-specific format requested by the partner entity. The example method can also include generating metadata associated with the translated data-center information and transmitting the metadata and translated data-center information to a partner site associated with the partner entity. If the partner site is not available, the method can include transmitting the information to a partner-accessible storage location and, when the partner site becomes available, identifying the storage location and failed attempt to deliver the information.

A method of a navigation sensor circuit includes: monitoring at least one polling request signal sent from a microcontroller during a variable time interval, wherein the microcontroller is externally coupled to the navigation sensor circuit; calculating at least one polling rate of the microcontroller according to the at least one polling request signal; and dynamically adjusting a sensor frame rate of the navigation sensor circuit according the at least one polling rate, wherein an image sensor of the navigation sensor circuit operates and captures images to generate and output displacement data based on the sensor frame rate.

An example system comprising one or more processors, memory containing instructions control one or more processors to receive network data from enterprise monitoring systems, each object being a digital device, virtual machine, virtual device, or application, analyze the network data to identify performance metric data related to objects of the enterprise system, performance metric data indicating performance of any number of objects in real time, receive a selection of an object identifier of an enterprise system, the object identifier identifying an object of the enterprise network, identify an object subset that includes the object identifier, the object subset including some objects of the enterprise network that are related by communication or performance of similar functions, if performance metrics from the network data for any objects in the object subset are performing outside of nominal thresholds, provide at least some performance metric data of those objects to the user interface.

An example system comprising one or more processors, memory containing instructions control one or more processors to receive network data from enterprise monitoring systems, each object being a digital device, virtual machine, virtual device, or application, analyze the network data to identify performance metric data related to objects of the enterprise system, performance metric data indicating performance of any number of objects in real time, receive a selection of an object identifier of an enterprise system, the object identifier identifying an object of the enterprise network, identify an object subset that includes the object identifier, the object subset including some objects of the enterprise network that are related by communication or performance of similar functions, if performance metrics from the network data for any objects in the object subset are performing outside of nominal thresholds, provide at least some performance metric data of those objects to the user interface.