An example inline frame monitor is disclosed. The inline frame monitor injects monitoring logic into a document object model to monitor an activity within a dynamically loaded inline frame of a web page. Data regarding the activity within the dynamically loaded inline frame is received. A policy is applied to validate or invalidate the activity within the dynamically loaded inline frame.

An example inline frame monitor is disclosed. The inline frame monitor injects monitoring logic into a document object model to monitor an activity within a dynamically loaded inline frame of a web page. Data regarding the activity within the dynamically loaded inline frame is received. A policy is applied to validate or invalidate the activity within the dynamically loaded inline frame.

A method comprises receiving a set of content items comprising a first content item from one or more media devices via a network, transmitting the first content item to a host device for performance of enhancement tasks related to the first content item, receiving a first enhanced content item comprising the first content item and added metadata from the host device, and storing the first content item and the added metadata.

A method comprises receiving a set of content items comprising a first content item from one or more media devices via a network, transmitting the first content item to a host device for performance of enhancement tasks related to the first content item, receiving a first enhanced content item comprising the first content item and added metadata from the host device, and storing the first content item and the added metadata.

In one embodiment, an illustrative method herein comprises: receiving, at a device, a plurality of captured end-user navigation sessions for a monitored application; generating, by the device, a mapping of end-user workflows for the monitored application based on an aggregation of the plurality of captured end-user navigation sessions; determining, by the device, one or more particular end-user workflows from the mapping of end-user workflows for synthetic testing; generating, by the device, one or more synthetic scripts that traverse the one or more particular end-user workflows respectively; and sharing, by the device, the one or more synthetic scripts with a synthetic monitoring system to cause the synthetic monitoring system to synthetically test the monitored application using the one or more synthetic scripts to traverse the one or more particular end-user workflows.

In one embodiment, an illustrative method herein comprises: receiving, at a device, a plurality of captured end-user navigation sessions for a monitored application; generating, by the device, a mapping of end-user workflows for the monitored application based on an aggregation of the plurality of captured end-user navigation sessions; determining, by the device, one or more particular end-user workflows from the mapping of end-user workflows for synthetic testing; generating, by the device, one or more synthetic scripts that traverse the one or more particular end-user workflows respectively; and sharing, by the device, the one or more synthetic scripts with a synthetic monitoring system to cause the synthetic monitoring system to synthetically test the monitored application using the one or more synthetic scripts to traverse the one or more particular end-user workflows.

A computing system may evaluate contents of a file to determine at least one user identifier for at least one suggested recipient of the file. The computing system may receive an input from a client device that indicates the file is to be shared, and in response to the input, the computing system may send the at least one user identifier to the client device.

Methods, systems, and devices for communications are described. A device or a group of devices may generate data. The group of devices may receive a group profile from a node that identifies the devices to be included, and the group profile may include a function to be evaluated at each of the devices. The node may also provision evaluation parameters which may allow the device to provide authenticated aggregate data to a requesting third party, without sharing the data between the devices, thus concurrently maintaining individual data privacy and data provenance.

Embodiments of the present disclosure may provide dynamic and fair assignment techniques for allocating resources on a demand basis. Assignment control may be separated into at least two components: a local component and a global component. Each component may have an active dialog with each other; the dialog may include two aspects: 1) a demand for computing resources, and 2) a total allowed number of computing resources. The global component may allocate resources from a pool of resources to different local components, and the local components in turn may assign their allocated resources to local competing requests. The allocation may also be throttled or limited at various levels.

Provided are systems, methods, and computer-program products for a proxy network that can determine, for a set of objects, an initial differential, where the initial differential is determined using a rules data store of a host network. The proxy network can further determine a supplemental differential for the set of objects. The proxy network can further determine a final differential that is the sum of the initial differential and the supplemental differential. The proxy network can further determine a final sum for the set of objects that is the object value less the final differential. The proxy network can further generate an outbound data packet that includes values corresponding to the set of objects and the final sum. When the host network receives the outbound data packet, the host network can modify an object data store using the values corresponding to the set of objects and the final sum.