Optical: systems and elements – Deflection using a moving element – Using a periodically moving element
Patent
1995-05-03
1996-11-19
Chin, Wellington
Optical: systems and elements
Deflection using a moving element
Using a periodically moving element
359109, 364713, 385 17, H04J 1400
Patent
active
055768733
DESCRIPTION:
BRIEF SUMMARY
This invention relates to telecommunications switch architecture, and in particular but not exclusively to architectures for use in multi-service environments rather than just the conventional voice traffic as in a PSTN (Public Switched Telephone Network)
BACKGROUND OF THE INVENTION
Speech and data signals are more and more being transmitted optically rather than electrically, however switching is performed in the electrical mode. Optical switching has been suggested particularly in order to obviate the need for opto-electronic interfaces which add to the system complexity and cost. However, the relatively low operating speed of currently available optical switch elements places a severe restriction on the system bit rate. The present invention is concerned with a switching architecture that can be embodied in both optical and electronic form
For the circuit switching of digital channels TST (Time-Space-Time) or STS (Space-Time-Space), for example, are used in 64 kbit/s networks. These types of switching can be made to be non-blocking or to have a low blocking probability but are characterised by:
Clearly with these basic structures there are a number of problems with handling packets.
In a multi-service SDH (Synchronous Digital Hierarchy) there can be a mixture of 8 bit information in Synchronous Transfer Mode (STM) and packets in Asynchronous Transfer Mode (ATM). With packets there is contention for channels because packets for a given output channel can arrive simultaneously on a number of input channels and temporarily overload that output channel. Thus internal queues are required and if these queues overload then traffic can be lost. With all known designs there is a finite probability that this will happen.
In an SDH multiplex, ATM cells and their headers are, once the frame overhead is removed, contiguous bits in the bit stream, whereas STM information at, say the 2 Mbit/s level is distributed throughout the frame. This means that incoming ATM information can be switched on the fly but a frame store is necessary before STM information can be switched.
In the past these conflicting requirements have resulted in switch designs that either deal with ATM switching in isolation or, if not, the circuit packet switching are segregated into separate modules. For example, in the RACE context (R&D in Advanced Communication Technologies in Europe), the RACE BLNT design ATM only (A. L. Fox et al "RACE BLNT: a technology solution for broadband networks." Integrated Broadband Services and Networks, IEE Conference Publication No. 329, October 1990, pp 47-57), the ATMOSPHERIC switch had separate ATM and STM sections (D. G. Fisher et al "An open
etwork architecture for integrate broadband communications". Integrated Broadband Services and Networks, lEE Conference Publication No. 329, October 1990, pp 73-78). The BERKOM project uses an ATM switch (H. Armbruster et al "Phasing-in the universal broadband ISDN: initial trials for examining ATM applications and ATM systems" Integrated broadband Services and Networks. lEE Publication No. 329, October 1990, pp 200-205). Gauss is an ATM switch (R. J. F. de Vries "Guass: a single-stage ATM switch with output buffering". Integrated Broadband Services and Networks, lEE Conference Publication No. 329, October 1990, pp 248-252. The ATMOSPHERIC switch also contains an overload policing function to prevent users trying to use more resources than were negotiated at call set-up time. Another known switch, which is a packet only switch is Knockout (Y-S Yen et al "The Knockout Switch: a simple, modular architecture for high-performance packet switching" lEE Journal on selected Areas in Communication, Vol SAC-5, No. 8, October 1987, pp 1274-1283). The Knockout switch uses a fully interconnected switch fabric topology (i.e. each input has a direct path to every output) so that no switch blocking occurs where packets destined for one input interfere with (block or delay) packets going to different outputs. It is only at each output of the switch that one encounters the unavoidable c
REFERENCES:
patent: 4740953 (1988-04-01), Matsumoto et al.
patent: 5301055 (1994-04-01), Bagchi et al.
patent: 5325224 (1994-06-01), Lang et al.
Birch Martin J.
Crossland William A.
Scarr Robert W.
Sparks Adrian P.
Chin Wellington
Negash Kinfe-Michael
Northern Telecom Limited
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