Methods, apparatus, systems and articles of manufacture to monitor media presentations are disclosed. An example tangible computer readable storage medium includes instructions that, when executed, cause a machine to at least instrument media with monitoring instructions; provide the instrumented media to a media device via a hypertext transport secure protocol, the monitoring instructions to cause the media device to request a panelist identifier associated with the media device; detect a media event based on an action of the media device; determine media-identifying information based on the media event; and generate a record including the media-identifying information and the panelist identifier.

Methods, apparatus, systems and articles of manufacture to monitor media presentations are disclosed. An example tangible computer readable storage medium includes instructions that, when executed, cause a machine to at least instrument media with monitoring instructions; provide the instrumented media to a media device via a hypertext transport secure protocol, the monitoring instructions to cause the media device to request a panelist identifier associated with the media device; detect a media event based on an action of the media device; determine media-identifying information based on the media event; and generate a record including the media-identifying information and the panelist identifier.

Representational state transfer (REST) based geo-aware content transfer includes a REST server configured for receiving an application programming interface (API) request from a client device. The REST server obtains a upload universal resource locator (URL) targeting a caching server that is geographically closest to the client device, constructs an upload link containing the upload URL and a completion callback, and sends the upload link to the client device. The client device uses the upload URL to upload content to the caching server. The caching server interprets the completion callback to obtain a completion URL and, upon completion of content uploading, makes a REST API call using the completion URL. Responsive to the REST API call, the REST server executes an inbound operation to complete the uploading to a content management system and returns the content URL to the caching server which sends the content URL to the client device.

Representational state transfer (REST) based geo-aware content transfer includes a REST server configured for receiving an application programming interface (API) request from a client device. The REST server obtains a upload universal resource locator (URL) targeting a caching server that is geographically closest to the client device, constructs an upload link containing the upload URL and a completion callback, and sends the upload link to the client device. The client device uses the upload URL to upload content to the caching server. The caching server interprets the completion callback to obtain a completion URL and, upon completion of content uploading, makes a REST API call using the completion URL. Responsive to the REST API call, the REST server executes an inbound operation to complete the uploading to a content management system and returns the content URL to the caching server which sends the content URL to the client device.

A communication system includes a first mobile terminal, a second mobile terminal, a smart device, and a router. The first mobile terminal, the second mobile terminal, and the smart device each establish a Wi-Fi link to a Wi-Fi router. The first mobile terminal is configured to manage the smart device. The router performs similarity comparison on first connection information and second connection information based on the first connection information generated when the first mobile terminal is connected to the router and the second connection information generated when the second mobile terminal is connected to the router, for example, a connection time point and connection duration. If a similarity reaches a first threshold, the router sends prompt information to the first mobile terminal. The prompt information is used to prompt whether to share management permission on the smart device with the second mobile terminal.

A system includes a purchase portal configured to receive a purchase order from a customer, wherein the purchase order includes a service from each of a plurality of service providers. When receipt of the purchase order is detected, a processor determines first and second ones of the service providers associated with the purchase order; and establishes a trust relationship between the first service provider and the second service provider in a context of the customer. The processor also sends a first request for a first trust artifact to the first service provider and a second request for a second trust artifact to the second service provider; receives the first trust artifact from the first service provider, receives the second trust artifact from the second service provider, sends the first trust artifact to the second service provider, and sends the second trust artifact to the first service provider.

A cloud-based API metadata management method and system. The cloud-based API metadata management method includes the step of installing an API tool by loading the API tool stored in a database by an API tool installation unit of a cloud server, the step of defining a standard API by the API tool installation unit of the cloud server, and creating an API for each hospital server by an API creation unit, and the step of testing the created API for each hospital server by a test unit of the cloud server, correcting data if there is error data, and storing and distributing the data and API for each hospital server if there is no error data.

A VXLAN access authentication method includes: An authentication point device receives a VXLAN authentication packet, where the VXLAN authentication packet is a VXLAN packet. The VXLAN authentication packet includes a VXLAN header and an authentication request sent by a terminal, the VXLAN header includes a first VNI, and the authentication request includes an authentication credential. The authentication point device obtains permission of the terminal or a second VNI based on the authentication credential. The permission of the terminal corresponds to the second VNI. The authentication point device sends the permission of the terminal or the second VNI to a control point device, where the control point device is a device that encapsulates the authentication request into the VXLAN authentication packet. In this application, VXLAN access authentication is performed on an overlay network, so that configuration complexity can be reduced when a VXLAN access authentication mode is modified or created.

In a computer system, an orchestration platform includes extensible components that interact with external systems and technology. The platform scales by way of a plurality of application servers using a clustering architecture.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive, from a network entity, a multicast-broadcast user service description message. The UE may communicate, using a multicast-broadcast service (MBS) transport function (MBSTF) client, with an MBS entity of the network entity, in accordance with information included in the user service description message, wherein the MBS entity is split into a multicast delivery function and a unicast application server. Numerous other aspects are described.