SMART POINT OF PRESENCE (SPOP) DEVICES FOR AIRCRAFT-BASED HIGH AVAILABILITY EDGE NETWORK ARCHITECTURE

A smart network access point (SNAP) device (204) is disclosed. In embodiments, the SNAP device includes trunk ports (502) for accepting a network trunk cable (e.g., fiber optic trunk) and thereby connecting the SNAP device to an aircraft-based network of SNAP devices. The SNAP device includes switch...

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Hauptverfasser:	KHAN, Abdul A, ADAMS, Charles, TAYLOR, Max G, RACH, Brian S, GOMEZ, Patrick, RILEY, Mitchell A
Format:	Patent
Sprache:	eng ; fre ; ger
Schlagworte:	ELECTRIC COMMUNICATION TECHNIQUE ELECTRICITY TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHICCOMMUNICATION
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creator	KHAN, Abdul A ADAMS, Charles TAYLOR, Max G RACH, Brian S GOMEZ, Patrick RILEY, Mitchell A
description	A smart network access point (SNAP) device (204) is disclosed. In embodiments, the SNAP device includes trunk ports (502) for accepting a network trunk cable (e.g., fiber optic trunk) and thereby connecting the SNAP device to an aircraft-based network of SNAP devices. The SNAP device includes switch ports for incorporating physical connections to mission systems (MS) or air vehicle systems (AVS) components and devices, providing a local smart point of presence (SPoP) throughout a physical subdivision (e.g., network district) of an aircraft. The SNAP device is configured for monitoring data exchanges between local MS/AVS components and the aircraft network. The SNAP device includes a cybersecurity module (712) for connecting to local security components (e.g., data guards and multiple levels of security (MLS) encryption/decryption) or for providing built-in data guard and encryption/decryption services. The SNAP device includes power control components for managing power distribution to the connected local network components.
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In embodiments, the SNAP device includes trunk ports (502) for accepting a network trunk cable (e.g., fiber optic trunk) and thereby connecting the SNAP device to an aircraft-based network of SNAP devices. The SNAP device includes switch ports for incorporating physical connections to mission systems (MS) or air vehicle systems (AVS) components and devices, providing a local smart point of presence (SPoP) throughout a physical subdivision (e.g., network district) of an aircraft. The SNAP device is configured for monitoring data exchanges between local MS/AVS components and the aircraft network. The SNAP device includes a cybersecurity module (712) for connecting to local security components (e.g., data guards and multiple levels of security (MLS) encryption/decryption) or for providing built-in data guard and encryption/decryption services. The SNAP device includes power control components for managing power distribution to the connected local network components.</abstract><oa>free_for_read</oa></addata></record>
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subjects	ELECTRIC COMMUNICATION TECHNIQUE ELECTRICITY TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHICCOMMUNICATION
title	SMART POINT OF PRESENCE (SPOP) DEVICES FOR AIRCRAFT-BASED HIGH AVAILABILITY EDGE NETWORK ARCHITECTURE
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