A method of managing an intermittent network includes, with a local network manager executed by a processor of a local server, managing at least one local client device to use the local server as a proxy server. The method includes, with an internet connection manager executed by the processor of the local server, transferring data between an internet and the local server based on a quality and speed of a connection to the internet, and, with an update manager, sending data downloaded from the internet by the local server to the local client device. The method includes, with an analytics manager, retrieving analytics data from the local client device. The local server restricts the local client device from accessing the internet through the local server.

An endpoint of a distributed federation with proxy synchronization including a data center infrastructure, a storage, and an endpoint. The storage stores a state of the data infrastructure and further stores a mirrored state for each of at least one other endpoint. The endpoint includes a communication interface for communicating via a communication network, where the endpoint, in response to receiving a command via the communication interface for changing the mirrored state, forwards the command towards an endpoint that owns the mirrored state via the communication interface. Commands may be forwarded directly or indirectly via one or more intermediary endpoints. An owner endpoint receives a command, updates its local state, and sends one or more events to one or more proxy endpoints to update corresponding mirrored states. A restricted proxy endpoint may store a partial mirrored state. The federation may support bidirectional sharing, synchronization, and resource data sharing.

An endpoint of a distributed federation with proxy synchronization including a data center infrastructure, a storage, and an endpoint. The storage stores a state of the data infrastructure and further stores a mirrored state for each of at least one other endpoint. The endpoint includes a communication interface for communicating via a communication network, where the endpoint, in response to receiving a command via the communication interface for changing the mirrored state, forwards the command towards an endpoint that owns the mirrored state via the communication interface. Commands may be forwarded directly or indirectly via one or more intermediary endpoints. An owner endpoint receives a command, updates its local state, and sends one or more events to one or more proxy endpoints to update corresponding mirrored states. A restricted proxy endpoint may store a partial mirrored state. The federation may support bidirectional sharing, synchronization, and resource data sharing.

Systems and methods for implementing historical data correction on a blockchain network. The method includes receiving historical data corresponding to a timestamp. The method also includes determining a first data block at a first address in a blockchain associated with the timestamp. The method further includes identifying a second address stored in the first data block corresponding to a second data block at the second address in the blockchain. The method also includes storing the historical data and the second address corresponding to the second data block in a third block at a third address in the blockchain. The method further includes calculating corrected metrics based on at least the historical data stored in the third data block. The method also includes generating a notification including an indication associated with the calculated corrected metrics.

Systems and methods for implementing historical data correction on a blockchain network. The method includes receiving historical data corresponding to a timestamp. The method also includes determining a first data block at a first address in a blockchain associated with the timestamp. The method further includes identifying a second address stored in the first data block corresponding to a second data block at the second address in the blockchain. The method also includes storing the historical data and the second address corresponding to the second data block in a third block at a third address in the blockchain. The method further includes calculating corrected metrics based on at least the historical data stored in the third data block. The method also includes generating a notification including an indication associated with the calculated corrected metrics.

In a method, an instance management node receives a request for creating a service instance; the instance management node obtains a cache configuration corresponding to the service instance; and the instance management node creates the service instance on a computing node, and creates a cache instance on the computing node based on the cache configuration. In this way, the service instance may provide a service by using the matched cache instance.

Implementations offload visual frames from a client device to a gateway or edge device for processing. The client device can receive streaming visual frames and a request to process the visual frames using a data service. The client device can offload visual frames to a gateway or edge device preloaded with a resource that corresponds to the requested data service. After the gateway or edge device processes the visual frames using the resource, the processed visual frames can be returned to the client device. In implementations, the offload device and client device are situated in a network such that a latency for the offload communications supports real-time video display. A gateway device manager can locate a gateway connected to the client device, and resources can be deployed (or the gateway can be prepopulated) so that the device can perform gateway services and edge processing services for the client device.

According to one embodiment, a network system features a first virtual private cloud (VPC) network and a second VPC network. The first VPC network includes a first plurality of gateways. Each gateway of the first plurality of gateways is in communications with other gateways of the first plurality of gateways in accordance with a first tunnel protocol. Similarly, a second VPC network includes a second plurality of gateways. Each of the second plurality of gateways is communicatively coupled to the each of the first plurality of gateways in accordance with a second security protocol to provide redundant routing.

A system may include a first device and a second device. The first device may be configured to select a second device for providing a first User Equipment device (UE) with media clips in accordance with Application Programming Interface (API) calls from a second UE. The second device may be configured to: receive a first API call from the second UE to generate and provide a media clip; generate the media clip; and send the generated media clip to the first UE.

A system may include a first device and a second device. The first device may be configured to select a second device for providing a first User Equipment device (UE) with media clips in accordance with Application Programming Interface (API) calls from a second UE. The second device may be configured to: receive a first API call from the second UE to generate and provide a media clip; generate the media clip; and send the generated media clip to the first UE.