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In a videoconference, ISDN provides simultaneous voice, video, and text transmission between individual desktop videoconferencing systems and group (room) videoconferencing systems. CONFIGURATIONS In ISDN, there are two types of channels, ''B'' (for "Bearer") and ''D'' (for "Delta"). ''B channels'' are used for data (which may include voice), and ''D channels'' are intended for signalling and control (but can also be used for data). There are two kinds of access to ISDN. ''' ( T1 ); in Europe and Australia it is 30B+1D, with an aggregate bit rate of 2.048 Mbit/s ( E1 ). Using Bipolar With Eight-zero Substitution encoding technique, call data is transmitted over the data (B) channels, with the signalling (D) channels used for call setup and management. Once a call is set up, there is a simple 64 kbit/s synchronous bidirectional data channel between the end parties, lasting until the call is terminated. There can be as many calls as there are data channels, to the same or different end-points. Bearer channels may also be Multiplexed into what may be considered single, higher-bandwidth channels via a process called B channel bonding. The D channel can also be used for sending and receiving X.25 data packets, and connection to X.25 packet network, this is specified in X.31 . In practice, X.31 was only commercially implemented in France and Japan. REFERENCE POINTS A set of '' Reference Point s'' are defined in the ISDN Standard to refer to certain points between the Telco and the end user ISDN equipment.
''1 Most NT-1 devices can perform the functions of the NT-2 as well, and so the S and T reference points are generally collapsed into the S/T reference point.'' ''2 Inside North America, the NT-1 device is considered Customer Premises Equipment and must be maintained by the customer, thus, the U interface is provided to the customer. In other locations, the NT-1 device is maintained by the telco, and the S/T interface is provided to the customer.'' TYPES OF COMMUNICATIONS HANDLED Among the kinds of data that can be moved over the 64 kbit/s channels are Pulse-code Modulated voice calls, providing access to the traditional voice PSTN . This information can be passed between the network and the user end-point at call set-up time. In North America, ISDN is nowadays mostly used as an alternative to analog connection, most commonly for Internet access. Some of the services envisaged as being delivered over ISDN are now delivered over the Internet instead. In Europe, and in Germany in particular, ISDN has been successfully marketed as a phone with features, as opposed to a POTS phone (Plain Old Telephone Service) with few or no features. However meanwhile features that were first available with ISDN (such as Three-Way Call, Call Forwarding, Caller ID, etc.) are now commonly available for ordinary analog phones as well, eliminating this advantage of ISDN. Another advantage of ISDN was the possibility of multiple simultaneous calls (one call per B channel), e.g. for big families, but with the increased popularity and reduced prices of mobile telephony this has become less interesting as well, making ISDN rather unappealing to the private customer. Where an analog connection requires a Modem , an ISDN connection requires a Terminal Adapter (TA). A SAMPLE ISDN CALL The following is an example of a Primary Rate (PRI) ISDN call showing the Q.921 / LAPD and the Q.931 /Network message intermixed (i.e. exactly what was exchanged on the D-channel). The call is originating from the switch where the trace was taken and goes out to some other switch, possibly an end-office LEC, who terminates the call. The first line format is <time> <D-channel> <Transmitted/Received> <LAPD/ISDN message ID>. If the message is an ISDN level message, then a decoding of the message is attempted showing the various Information Elements that make up the message. All ISDN messages are tagged with an ID number relative to the switch that started the call (local/remote). Following this optional decoding is a dump of the bytes of the message in <offset> <hex> ... <hex> <ascii> ... <ascii> format. The RR messages at the beginning prior to the call are the keep alive messages. Then you will see a '''SETUP''' message that starts the call. Each message is acknowledged by the other side with a RR.
SEE ALSO Protocols
Specifications defining the physical layer and part of the data link layers of ISDN: From the point of view of the OSI architecture, an ISDN line has a stack of three protocols
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