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I tried to understand the data protocols used to connect InFlight-Entertainment (IFE) Server, Seat Electronic Unit (SEB), Floor Disconnect Box (FDB) and Seat Display Unit (SDU), but I'm a bit struggling about this.

Generally speaking I've seen that the most used transmission protocols for avionics are ARINC 429 (629 in case of Boeing 777) and ARINC 664 or AFDX, since part of the IMA infrastructure, and in other rare case ethernet connections, however I haven't found particular specifications about this particular connections.

Does anybody know something about this or have good sources from which start back my research?

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  • $\begingroup$ @Gerry can you tell me, at least with the companies you have mentioned before, which protocols/standards you have found there? $\endgroup$ Oct 17, 2017 at 7:28
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    $\begingroup$ I don't know the streaming protocols used. It's been almost 10 years since I had any contact with them. The system was basically a server with Ethernet distribution. Since airline seat configurations change, you need some flexibility in connections. Think of the FDB as a router/connection point for nearby seats, the SEB as a media client (PC, XBOX, etc.) and the SDU is just a monitor. $\endgroup$
    – Gerry
    Oct 17, 2017 at 12:30
  • $\begingroup$ Is there a specific aircraft you are focusing on? That might help narrow down what IFE system(s) might be used. ARINC 429 isn't a good fit for IFE. $\endgroup$ Oct 17, 2017 at 13:35
  • $\begingroup$ @selectstriker2 I'm not focused in a specific aircraft but instead in a specific IFE brand, Panasonic. $\endgroup$ Oct 17, 2017 at 13:42
  • $\begingroup$ I have not worked with IFEs, just certified avionics, but I suspect that most IFEs uses a centralized server, running some consumer OS such as Windows or Linux. They would then just use an Ethernet protocol such as TCP/IP to communicate. Related to your question: aviation.stackexchange.com/questions/15604/… $\endgroup$ Oct 17, 2017 at 13:58

1 Answer 1

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Airbus IFE system


All data sources and servers are concentrated in the IFE Center which delivers them to the cabin LAN using Ethernet. The LAN itself is Ethernet.

Some data are received by the IFE Center from the Cabin Intercommunication Data System which is itself connected to AFDX (Ethernet, ARINC 664) ADCN network.

The cabin network then distributes data and power to overhead displays and seat IFE units.

Schematic:

enter image description here
Source, page 15

Architecture:

enter image description here Source, page 15


IFE System for the A350


The IFEC rack is the source for all data sent to the passengers IFE units and the flight attendants panels. It contains files and media servers, is linked to external cameras (ETACS), landscape cameras and SATCOM.

  • IFE: In Flight Entertainment
  • IFEC: In Flight Entertainment Center. A system with redundant sources and redundant outputs.
  • ETACS: External and Taxiing Aid Camera System
  • SATCOM: Satellite Communications

The IFEC is also interfaced with the CIDS which supply it with data from systems like CDAU and ADIRS and other aircraft systems using AFDX, engine data from PCS, or discrete signals like cabin systems (oxygen) or public address.

  • CIDS: Cabin Intercommunication Data System, the main way for attendants to control the cabin systems other than IFE.
  • CDAU: Centralized Data Acquisition Unit
  • ADIRS: Air Data/Inertial Reference System
  • AFDX: Avionics Full Duplex Switched Ethernet (ARINC 664)
  • ADCN: Avionics Data Communication Network
  • PCS: Propulsion Control system

IFE power is supplied by some SPDB.

  • SPDB: Secondary Power Distribution Box

The IFEC and SPDB are controlled by ICPs, FAPs, CWSs and RCCs.

  • ICP: Integrated Control Panel (in cockpit)
  • FAP: Flight Attendant Panel
  • CWS: Cabin Work Station
  • RCC: Remote Control Center

The IFEC delivers data (audio, video, other data) as Ethernet frames to FDBs using a switch. There are actually two or more IFEC switches, each one feeds some FBDs.

FBDs also receive power from the SPDB. Ethernet frames and power are distributed by FDBs to overhead displays and IFE units.

  • FDB: Floor Disconnect Box. Used as a switch to create the network. FDB ensure network redundancy: Each FDB receives data from one IFEC switch, but as FDB share the same network, IFEC is still available when one of its switch is failed.

Each seat gets its IFE unit which is connected using a SEB. The IFE unit encompasses the SDU, the PCU and headset.

  • SEB: Seat Electronic Box. A network interface card, with power management.
  • SDU: Seat Display Unit (touch screen in front of the passenger)
  • PCU: Passenger Control Unit (interface)

The big picture:

enter image description here
Source


Security aspects


Your question was motivated by the security aspects of the cabin network vs. the other aircraft domains (e.g. avionics or cabin systems).

For Airbus, the cabin IFE network is only a layer 2 LAN with multiple Ethernet segments linked by Ethernet switches. There is no possibility to route malicious packets to other domains, since there is no routable (layer 3) protocol.

The interconnection between IFE and other systems is made through the CIDS, which is based on a redundant "director" which controls data destination. Without other elements, the assumption is security is primarily at CIDS level.

More information in this presentation (some pages are in German, most are in English).

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