Systems and methods for providing data beacons are disclosed. In some embodiments the system can include a first node and a second node. Each node includes a read queue, a write queue and a parallel file system. Data is written from the write queue on the first node to the parallel file system on the second node and from the write queue on the second node to the parallel file system on the first node. The read queue on each node receives data from the parallel file system on the node itself.

Systems and methods for providing data beacons are disclosed. In some embodiments the system can include a first node and a second node. Each node includes a read queue, a write queue and a parallel file system. Data is written from the write queue on the first node to the parallel file system on the second node and from the write queue on the second node to the parallel file system on the first node. The read queue on each node receives data from the parallel file system on the node itself.

A network system for providing long haul network connection between endpoint devices is disclosed. The network system includes a first and a second endpoint devices, a first and a second exchange servers, a first access point server coupled between the first endpoint device and the first exchange server, a second access point server coupled between the second endpoint device and the second exchange server, a first storage node coupled between the first exchange server and the second exchange server, and a second storage node coupled between the first exchange server and the second exchange server. The first exchange server is configured to convert first packetized traffic into a carrier file and write the carrier file to the second storage node. The second exchange server is configured to read the carrier file from the second storage node and convert the carrier file into second packetized traffic.

A network system for providing long haul network connection between endpoint devices is disclosed. The network system includes a first and a second endpoint devices, a first and a second exchange servers, a first access point server coupled between the first endpoint device and the first exchange server, a second access point server coupled between the second endpoint device and the second exchange server, a first storage node coupled between the first exchange server and the second exchange server, and a second storage node coupled between the first exchange server and the second exchange server. The first exchange server is configured to convert first packetized traffic into a carrier file and write the carrier file to the second storage node. The second exchange server is configured to read the carrier file from the second storage node and convert the carrier file into second packetized traffic.

The present invention relates to a method and an apparatus for transmitting and receiving information between servers in a contents transmission network system and, more particularly, to a method and an apparatus for transmitting and receiving information between a core node and an edge node belonging to a contents transmission network. To accomplish the objective mentioned above, a method for receiving, by a receiving server, information in a contents transmission network according to one embodiment of the present invention comprises the steps of: receiving first information from a transmission server; determining a transmission unit of the first information on the basis of the received first information; transmitting, to the transmission server, a second information transmission request including information on the determined transmission unit; and receiving, from the transmission server, second information generated on the basis of the information on the transmission unit. According to an embodiment of the present invention, the method and the apparatus for transmitting and receiving information between servers in a contents transmission network system can generate compressed information on the basis of original information sought to be transmitted between servers, whereby it is possible to obtain an effect of improving optimal compression efficiency, transmission efficiency between servers, and performance regarding the delay time between both communication ends.

A system and method for transmitting a data stream between a server and a user terminal, comprises at least one satellite gateway associated with a satellite router communicating with at least one satellite terminal associated with a terminal router, wherein the terminal router is configured, when it receives a stream request from a user terminal, to search for it in its memory resources and, if appropriate, transmit it to the user terminal, the satellite router is configured to transmit the request to the server, estimate a popularity of the stream and transmit a message of correspondence between the stream and broadcasting parameters then convert the stream into a point-to-multipoint stream adapted to the broadcasting parameters, the terminal router is configured to convert point-to-multipoint streams into point-to-point streams and transmit them to the user terminals.

The disclosed technology teaches safely attaching an access token to a browser-based request from a first app loaded by a webpage, without exposing the token to malicious code loaded by the webpage, providing an identity proxy that transparently determines which network requests to relay and a secrets management proxy that provides access tokens transparently to the requests. The identity proxy intercepts an access request from the first app to the resource server and relays the request via the secrets management proxy, which forwards the request to the resource server with an access token, receives a response from the resource server and forwards the response to the identity proxy for return to the first app. The secrets management proxy is implemented in an iFrame that has isolated storage subject to a browser-enforced same origin policy that makes the isolated storage used by the iFrame inaccessible to malicious code on the webpage.

The disclosed technology teaches safely attaching an access token to a browser-based request from a first app loaded by a webpage, without exposing the token to malicious code loaded by the webpage, providing an identity proxy that transparently determines which network requests to relay and a secrets management proxy that provides access tokens transparently to the requests. The identity proxy intercepts an access request from the first app to the resource server and relays the request via the secrets management proxy, which forwards the request to the resource server with an access token, receives a response from the resource server and forwards the response to the identity proxy for return to the first app. The secrets management proxy is implemented in an iFrame that has isolated storage subject to a browser-enforced same origin policy that makes the isolated storage used by the iFrame inaccessible to malicious code on the webpage.

A method and system for real-time cloud bursting is provided. The method and system are directed to extending a data center with cloud computing resources by decoupling computing resources and storage devices in a virtualized data center, and booting the decoupled computing resources in a staged process while storage devices are divided and prioritized into components. Data and boot instructions are re-routed and cached as needed through a proxy system.

A system and method that enables large content data transfers to mobile platforms is provided. The mobile platform cache system and method provided build a cache suitable for large content data transfers using the available storage capacity of one or more frequently used, existing mobile devices. The provided mobile cache system and method prioritize available free or low cost communication protocols for data transfer to one or more mobile devices, enabling the use of free Wi-Fi communications or low cost communications, and minimizing the use of cellular data transmissions for large content data transfers.