A system, method, and computer-readable medium are disclosed for performing a data center monitoring and management operation. The data center monitoring and management operation includes: providing a data center asset with a data center asset bridging module, the data center asset comprising a data center asset user interface; establishing access to the data center asset; when access to the data center is established, enabling a connection between a cloud-based data center monitoring and management console and the data center asset via the data center asset bridging module; and, exchanging information between the data center asset and the cloud-based data center monitoring and management console via the bridging module.

A system and a method for routing a message to an application over a connection oriented session in a Kafka messaging platform environment are provided. The method includes: acquiring a plurality of partitions from the Kafka messaging platform; designating a first partition from among the plurality of partitions as a sticky partition; generating a plurality of routing keys that are configured to route to the sticky partition; receiving a subscription from a service that corresponds to a first application; transmitting, to the first application, a first routing key that identifies the subscription from among the plurality of routing keys; and receiving messages from Kafka services that are routed by the first routing key to the first application. For any particular application or set of applications, a plurality of connection oriented sessions may be used to achieve load balancing and high availability.

A system and a method for routing a message to an application over a connection oriented session in a Kafka messaging platform environment are provided. The method includes: acquiring a plurality of partitions from the Kafka messaging platform; designating a first partition from among the plurality of partitions as a sticky partition; generating a plurality of routing keys that are configured to route to the sticky partition; receiving a subscription from a service that corresponds to a first application; transmitting, to the first application, a first routing key that identifies the subscription from among the plurality of routing keys; and receiving messages from Kafka services that are routed by the first routing key to the first application. For any particular application or set of applications, a plurality of connection oriented sessions may be used to achieve load balancing and high availability.

Techniques for identifying media network flows that use dynamic codec identifications are described. In an embodiment, network flow information for a network flow between a first endpoint and a second endpoint is received from a network device interposed between the first endpoint and the second endpoint, wherein the network flow information includes at least an address for the first endpoint and a particular payload identification number. A request is sent to the first endpoint for one or more characteristics belonging to the first endpoint. In response to receiving the one or more characteristics, a profile database is searched for an entry that maps the one or more characteristics to a profile, wherein the profile maps one or more payload identification numbers to one or more encoding types. An encoding type for content transferred over the network flow is determined based on the profile and the particular payload identification number.

A computer device may include a memory storing instructions and processor configured to execute the instructions to host a network function container that implements a microservice for a network function in a wireless communications network, wherein the network function container is deployed by a container orchestration platform; host a service proxy container associated with the network function container, wherein the service proxy container is deployed by the container orchestration platform; and configure the hosted service proxy container to apply a wireless network policy to the microservice for the network function. The processor may be further configured to intercept messages associated with the microservice for the network function using the configured service proxy container; and apply the wireless network policy to the intercepted messages using the configured service proxy container.

A mobile app generates and manages companion apps in a memory of the mobile computing device. The companion apps cooperate with one or more integrated tracker apps in a memory of a wearable device to provide a combined functionality to the wearable device. A companion app communicates with an integrated tracker app to provide at least extended capabilities for the integrated tracker app including adding connectivity to the Internet to access On-line services and gather data on behalf of the integrated tracker app via the integrated tracking app submitting a request to an application programming interface for the companion app. The mobile app coordinates activities between i) multiples instances of the companion app loaded in the memory of the mobile computing device and ii) the integrated tracker apps running in the memory of the wearable device.

Techniques are disclosed relating to methods that include receiving an indication of an access by a user to a web page that includes a beacon, and calculating a readiness score for triggering the beacon. The methods may also include determining, based on the readiness score, whether to perform a client-side or server-side triggering of the beacon. The triggering causes data associated with the access to be transmitted to a third-party computer system.

Systems, methods, and computer-readable media for a content enhancement service are provided. In one embodiment, a method may include identifying at least one key term associated with an item of content provided by a content provider subsystem, generating an issue interface including an issue action element that is associated with the at least one identified key term, and incorporating the issue interface into an online presentation that includes the item of content, where the incorporated issue interface enables selection of the issue action element by a user consuming the item of content via the online presentation while the online presentation is presented to the user, and where selection of the issue action element is operative to automatically carry out an action that is associated with the at least one identified key term while the online presentation is presented to the user.

A virtual desktop server include an application framework comprising a real-time media application to provide real-time communications (RTC), a native RTC engine to execute a portion of the real-time media application when received, and a processor coupled to the application framework and to the native RTC engine. The processor redirects original application program interfaces (APIs) of the real-time media application intended for the native RTC engine based on redirection code injected into the real-time media application so that the portion of the real-time media application is to be redirected. The processor receives from a client computing device capabilities of the client computing device to execute the redirected portion of the real-time media application. The processor switches to a fallback mode if the client computing device has limited capabilities.

A virtual desktop server include an application framework comprising a real-time media application to provide real-time communications (RTC), a native RTC engine to execute a portion of the real-time media application when received, and a processor coupled to the application framework and to the native RTC engine. The processor redirects original application program interfaces (APIs) of the real-time media application intended for the native RTC engine based on redirection code injected into the real-time media application so that the portion of the real-time media application is to be redirected. The processor receives from a client computing device capabilities of the client computing device to execute the redirected portion of the real-time media application. The processor switches to a fallback mode if the client computing device has limited capabilities.