A system and method for displaying information from at least a first computing device and a second computing device on an interactive display. In some embodiments: (1) the first computing device is connected to a public data network; (2) the second computing device is connected to a private data network; and (3) the interactive display is connected to both the public data network and the private data network. The system mirrors a first display for the first computing device (using information received via the public data network) and mirrors a second display for the second computing device (using information received via the private data network) on the interactive display. This may two users to simultaneously mirror content from two remote computing devices on different networks onto the same interactive display, without exposing the private data network (e.g., and any computing components connected thereto) to the first computing device.

An information processing method includes, in a situation that a connection between a first electronic device and a second electronic device is established for first time, obtaining identity information of the second electronic device; obtaining a communication protocol corresponding to the identity information; and based on a data path formed after the first electronic device is connected to the second electronic device, sending the communication protocol to the second electronic device, to enable the second electronic device to communicate with the first electronic device based on the communication protocol.

Persistent storage may contain an input discovery payload that contains entries representing configuration items and relationships therebetween, wherein the configuration items contain attributes defining devices, components, or applications on a network. One or more processors may be configured to: provide, for display, a graphical user interface containing a representation of the input discovery payload and a button; provide the input discovery payload to an identification and reconciliation engine (IRE) software application; receive, from the IRE software application, an output discovery payload that includes a log generated from execution of the IRE software application on the input discovery payload, wherein the log indicates, for the configuration items and the relationships in the input discovery payload, how a configuration management database (CMDB) would be updated by the IRE software application; and provide, for display, a further graphical user interface containing a further representation of the output discovery payload.

Persistent storage may contain an input discovery payload that contains entries representing configuration items and relationships therebetween, wherein the configuration items contain attributes defining devices, components, or applications on a network. One or more processors may be configured to: provide, for display, a graphical user interface containing a representation of the input discovery payload and a button; provide the input discovery payload to an identification and reconciliation engine (IRE) software application; receive, from the IRE software application, an output discovery payload that includes a log generated from execution of the IRE software application on the input discovery payload, wherein the log indicates, for the configuration items and the relationships in the input discovery payload, how a configuration management database (CMDB) would be updated by the IRE software application; and provide, for display, a further graphical user interface containing a further representation of the output discovery payload.

An apparatus and method for providing ML processing for one or more ML applications operating on one or more Internet of Things (IoT) devices includes receiving a ML request from an IoT device. The ML request can be generated by a ML application operating on the IoT device and include input data collected by the first ML application. A ML model to perform ML processing of the input data included in the ML request is identified and provided to an ML core for ML processing along with the input data included in the first ML request. The ML core produces ML processing output data based on ML processing by the ML core of input data included in the ML request using the ML model. The ML processing output data can be transmitted to the IoT device.

Systems and methods for connecting devices via a virtual global network across network fabrics using a network tapestry are disclosed. The network system comprises a first access point server in communication with a first backbone exchange server, a second access point server in communication with a second backbone exchange server, and a network tapestry comprising a first communication path connecting the first and second access point servers and a second communication path connecting the first and second backbone exchange servers.

Systems and methods for connecting devices via a virtual global network across network fabrics using a network tapestry are disclosed. The network system comprises a first access point server in communication with a first backbone exchange server, a second access point server in communication with a second backbone exchange server, and a network tapestry comprising a first communication path connecting the first and second access point servers and a second communication path connecting the first and second backbone exchange servers.

A method of managing access to a plurality of Packet Switched (PS) networks of a wireless communication apparatus including a plurality of Subscriber Identity Modules (SIMs) includes obtaining first information indicating data service-related preferences for the plurality of SIMs, selecting at least one SIM necessary for accessing each of the plurality of PS networks from among the plurality of SIMs, based on the first information and second information indicating a wireless network capable of being provided by an operator corresponding to each of the plurality of SIMs, and accessing each of the plurality of PS networks by using the selected at least one SIM.

A method of managing access to a plurality of Packet Switched (PS) networks of a wireless communication apparatus including a plurality of Subscriber Identity Modules (SIMs) includes obtaining first information indicating data service-related preferences for the plurality of SIMs, selecting at least one SIM necessary for accessing each of the plurality of PS networks from among the plurality of SIMs, based on the first information and second information indicating a wireless network capable of being provided by an operator corresponding to each of the plurality of SIMs, and accessing each of the plurality of PS networks by using the selected at least one SIM.

Web-enabled routers are remotely and securely administered in a centralized fashion. A router receives a configuration profile from a dedicated web domain that maintains a repository of configuration profiles for multiple routers. The web domain also provides a web portal for customized generation of new configuration profiles based on stored profiles. When a new profile is deployed to and instantiated on a router, the router transmits a “heartbeat” to ensure that it can maintain connectivity with the web domain; if not, the router reverts to a previous “failover” configuration profile that ensures connectivity to the web domain. A router also may be equipped with both a wired and a wireless (e.g., a 3G, 4G, or 4G LTE) WAN communication interface. In the event of a wired connectivity issue, the router controls the wireless WAN interface to prioritize traffic for the router heartbeat and data backup/restore operations between a computer network for which the router serves as a gateway and the web domain.