Abstract: In an onboard aircraft computing and network system, an Aeronautical Radio, Incorporated (ARINC) 629 Ethernet converter receives ARINC 629 data, transcodes the data, and inserts the data into Ethernet frames for transmission to other onboard devices. A secure communications session may be established for transmission of the transcoded data. ARINC 629 data may be received by an ARINC 629 Ethernet converter on several buses used by onboard devices.

Abstract: In an onboard aircraft computing and network system, an Aeronautical Radio, Incorporated (ARINC) 629 Ethernet converter receives ARINC 629 data, transcodes the data, and inserts the data into Ethernet frames for transmission to other onboard devices. A secure communications session may be established for transmission of the transcoded data. ARINC 629 data may be received by an ARINC 629 Ethernet converter on several buses used by onboard devices.

Abstract: A method is present for transferring information in an aircraft network data processing system. A message is received from a process executing on the aircraft network data processing system for a destination to form a pending message. The pending message is received using a common protocol for processes executing in the aircraft network data processing system. A communication service is identified from a number of communication services for use in sending the message to the destination remote to the aircraft network data processing system to form a selected communication service in response to receiving the pending message. A new message is formed from the pending message. The new message has a format usable by an associated protocol for the selected communication service. The new message is sent to the destination using the selected communication service.

Abstract: A method is present for transferring information in an aircraft network data processing system. A message is received from a process executing on the aircraft network data processing system for a destination to form a pending message. The pending message is received using a common protocol for processes executing in the aircraft network data processing system. A communication service is identified from a number of communication services for use in sending the message to the destination remote to the aircraft network data processing system to form a selected communication service in response to receiving the pending message. A new message is formed from the pending message. The new message has a format usable by an associated protocol for the selected communication service. The new message is sent to the destination using the selected communication service.

Abstract: Configuration of hardware and software onboard a mobile platform may be dynamically managed without significantly impacting a data stream from the mobile platform. Configuration data for equipment and resident software aboard a mobile platform is electronically reported in the form of a part number and a serial number. The configuration data is transferred to a terrestrial database via a mobile communications network. The configuration data is displayed to stakeholders, such as the network-provider enterprise and its customers. Invalid configurations may cause alerts.

Abstract: A status reporting system for components used in a mobile platform includes a fault manager within the mobile platform for assigning a state indicator to each component. Each state indicator indicates the operational current state of the component. A management system external to the mobile platform, in one example being a ground based management system, is in communication with the mobile platform via a wireless communication link. A component summary including the state indicators of all the components is periodically transmitted from the mobile platform as an information packet, via the wireless link, to the management system for review. The management system can thus remotely monitor the operational status of various important components on a periodic basis, for example every five minutes. This saves significant bandwidth over that which would be required if a continuous wireless link was to be employed to remotely monitor various components on the mobile platform.

Abstract: Propagation of a mobile platform's public IP address though Internet service providers is monitored as the mobile platform is handed-off from a first ground station to a second ground station. The mobile platform's public IP address is removed from the first ground station. The first ground station is checked to determine whether the mobile platform's public IP address is no longer present there. After a predetermined period, the second ground station is checked to determine whether the mobile platform's public IP address is no longer present at the first ground station. The mobile platform's public IP address is added to the second ground station. The second ground station is checked to determine whether the mobile platform's public IP address is now present there. After a predetermined period, the first ground station is checked to determine whether the mobile platform's public IP address is now present at the second ground station.

Abstract: Exemplary methods and systems manage a mobile network. A mobile network node is managed when the node is connected to the network. However, an alarm is not necessarily generated when the node is not connected to the network. A status message is periodically generated and transmitted from the mobile network node to a network control facility. The status message may include any status information regarding the mobile network node as desired. When the status message is indicative of a predetermined condition, an alarm is automatically generated. When no status message is received from the mobile network node, a determination is made whether connectivity exists between the mobile network node and the network. If connectivity does not exist between the mobile network node and the network, then no alarm is generated. If connectivity does exist between the mobile network node and the network, then an alarm is generated.

Abstract: Exemplary methods and systems manage a mobile network. A mobile network node is managed when the node is connected to the network. However, an alarm is not necessarily generated when the node is not connected to the network. A status message is periodically generated and transmitted from the mobile network node to a network control facility. The status message may include any status information regarding the mobile network node as desired. When the status message is indicative of a predetermined condition, an alarm is automatically generated. When no status message is received from the mobile network node, a determination is made whether connectivity exists between the mobile network node and the network. If connectivity does not exist between the mobile network node and the network, then no alarm is generated. If connectivity does exist between the mobile network node and the network, then an alarm is generated.