Variable data rate channels for digital networks

US 5,400,328 A
Filed: 05/28/1992
Issued: 03/21/1995
Est. Priority Date: 05/28/1991
Status: Expired due to Fees

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1. A method of varying the bit-rate available for digital signals to be transmitted by a communication system which employs a plurality of first channels which in operation always have the same fixed bit-rate, comprising the steps ofopening for operation between two stations a variable bit-rate second channel comprising at least one of the first channels, where each of the first channels have equal bit-rates, andchanging, as required in the course of operation, the number of first channels comprising the second channel while continuing to transmit data over the second channel,wherein the number of first channels forming the second channel is reduced, when required, bytransmitting, in the second channel, a predetermined distinctive sequence of digital signals from one of the two stations, the predetermined distinctive sequence being one which is not likely to occur in data to be transmitted by the communication system,ceasing to transmit data in one of the first channels which is to be removed from the second channel at a time having a first predetermined relationship to the transmission of the predetermined distinctive sequence, andat the said other station, omitting, at a time having a second predetermined relationship to the reception of the predetermined distinctive sequence, any data received in the said one first channel from the output of the second channel.

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Abstract

The Integrated Services Digital Network ("ISDN") normally uses 64 Kbits/sec channels which are therefore unsuitable for data traffic at higher rate traffic. This can be overcome by assembling ISDN channels to form higher bit rate channels. However, when the bit-rate required changes frequently, the number of channels grouped together must be changed often. To solve this problem, data packets are received from local area networks by a computer and assembled into groups of ISDN channels which are combined to form high bit rate channels or U-channels. The computer assembles data into an ISDN frame using an appropriate number of slots in the frame for each U-channel. The frames are transmitted using conventional ISDN circuits. On reception, ISDN slots in frames are passed to packet assembly buffers, one for each U-channel, before being passed to users. When a new slot is to be added to a U-channel, synchronization signals are sent in the new slot and flags are used to establish when data is to be sent. When the bit-rate of a U-channel is to be reduced by removing a slot, a distinctive closing sequence is sent in that channel which on reception is an indication that no further data will be sent in that slot.

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18 Claims

1. A method of varying the bit-rate available for digital signals to be transmitted by a communication system which employs a plurality of first channels which in operation always have the same fixed bit-rate, comprising the steps ofopening for operation between two stations a variable bit-rate second channel comprising at least one of the first channels, where each of the first channels have equal bit-rates, andchanging, as required in the course of operation, the number of first channels comprising the second channel while continuing to transmit data over the second channel,wherein the number of first channels forming the second channel is reduced, when required, bytransmitting, in the second channel, a predetermined distinctive sequence of digital signals from one of the two stations, the predetermined distinctive sequence being one which is not likely to occur in data to be transmitted by the communication system,ceasing to transmit data in one of the first channels which is to be removed from the second channel at a time having a first predetermined relationship to the transmission of the predetermined distinctive sequence, andat the said other station, omitting, at a time having a second predetermined relationship to the reception of the predetermined distinctive sequence, any data received in the said one first channel from the output of the second channel.
- View Dependent Claims (2, 10)
- - 2. A method according to claim 1 wherein the first channels and the second channel are duplex channels.
  - 10. A method according to claim 1 wherein the predetermined distinctive sequence has at least 48 bits.

3. A method of varying the bit-rate available for digital signals to be transmitted by a communication system which employs a plurality of first fixed bit-rate channels, comprising the steps ofopening for operation between two stations a variable bit-rate second channel comprising at least one of the first channels, andchanging, as required in the course of operation, the number of first channels comprising the second channel while continuing to transmit data over the second channel,wherein the number of first channels forming the second channel is reduced, when required, bytransmitting, in the second channel, a predetermined distinctive sequence of digital signals from one of the two stations, the predetermined distinctive sequence being one which is not likely to occur in data to be transmitted by the communication system,ceasing to transmit data in one of the first channels which is to be removed from the second channel at a time having a first predetermined relationship to the transmission of the predetermined distinctive sequence, andat the said other station, omitting, at a time having a second predetermined relationship to the reception of the predetermined distinctive sequence, any data received in the said one first channel from the output of the second channel,wherein opening a variable bit-rate second channel or increasing the number of first channels in the second channel comprises the steps oftransmitting a first further predetermined sequence of digital signals from both stations in one of the first channels which is carrying a second predetermined sequence of digital signals indicating that the channel is idle,detecting separately at each station the reception of the first further predetermined sequence of digital signals and then transmitting a third further predetermined sequence of digital signals separately at each station followed by digital signals representing data, andcombining the digital signals received after the third further sequence with digital signals received in all other first channels already forming the second channel to provide an output for the second channel.
- View Dependent Claims (4, 5, 6, 7, 8, 9, 11)
- - 4. A method according to claim 3 wherein the first channels are the sub-channels of an ISDN system and the first channels are transmitted in a series of frames.
  - 5. A method according to claim 4 includingdefining a series of synchronisation times at each station which are separated from one another by the same number of frames,wherein the said first and third predetermined sequences of digital signals are only transmitted at synchronisation times, anddetection of the said first and third predetermined sequences, on reception, only takes place at synchronisation times.
  - 6. A method according to claim 4 comprising the further step of opening a further second channel, whereinthe said sequences of digital signals are transmitted at any time,the third further sequence is followed by data signals indicating to which of said second channels the first channel being opened belongs,the third further sequence is followed when the first channel is ready for data signals in both directions by a fourth further predetermined sequence of data signals followed by data signals indicating the time of transmission thereof, the fourth sequence being followed in the next frame by data signals representing traffic to be sent by the second channel, anddetection of the said sequences is carried out by examining every first channel in each second channel in each frame for at least one of the said sequences.
  - 7. A method according to claim 4 includingdefining a series of synchronisation times which are separated from one another by the same number of frames, andwhen the said one channel is to be removed from the second channel, ceasing to combine data from the said one channel at the frame following the next synchronisation time after reception of the predetermined distinctive sequence.
  - 8. A method according to claim 7 including, when the said one channel is to be removed, ceasing to transmit data in the said one channel at the frame following the next synchronisation time after reception of the predetermined distinctive sequence.
  - 9. A method according to claim 4 wherein when a command is given to remove the said one channel from the second channel the predetermined distinctive sequence is sent in the next frame after receiving the command,data ceases to be transmitted in the said one channel in the said next frame,every first channel in the second channel is examined on reception in each frame to determine whether the predetermined distinctive sequence is present, anddata received in the said one channel is omitted from the output of the second channel in the next frame following that in which the predetermined distinctive sequence is received.
  - 11. A method according to claim 4 wherein the predetermined distinctive sequence is part of a 64-bit sequence which also includes an identification of the said one first channel.

12. Apparatus for use in transmitting and receiving variable bit-rate digital signals, comprisingmeans for operating a plurality of fixed bit-rate first duplex channels, each of which first channels have the same bit-rate, at a first location for communication to a second location,means for combining a variable number of the first channels to provide a variable bit-rate second channel, andmeans for changing the number of first channels forming the second channel as required in the course of operation while continuing to transmit data over the second channel, comprising means for transmitting a predetermined distinctive sequence of digital signals from the first location when the number of first channels forming a second channel is to be reduced, the predetermined distinctive sequence being one which is not likely to occur in data to be transmitted by the second channel, andmeans for detecting the predetermined distinctive sequence when transmitted from the second location and received at the first location,the means for combining the first channels being arranged to cease to transmit data in one of the first channels which is to be removed from the second channel at a time having a first predetermined relationship to the transmission of the predetermined distinctive sequence and to omit, at a time having a second predetermined relationship to the reception of the predetermined distinctive sequence, any data received in the said one first channel from the output of the second channel.
- View Dependent Claims (13, 17, 18)
- - 13. Apparatus according to claim 12 wherein the means for operating the first channels comprises multiplex means for time division multiplexing a high bit-rate channel to provide the first channels, the first channels then being transmitted in a series of frames.
  - 17. Apparatus according to claim 12 wherein the means for changing the number of first channels, in operation, transmits the said predetermined distinctive sequence as a sequence of at least 48 bits.
  - 18. Apparatus according to claim 17 wherein the means for changing the number of first channels, in operation, transmits the predetermined distinctive sequence as part of a 64-bit sequence which also includes an identification of a first channel which is to be closed.

14. Apparatus for use in transmitting and receiving variable bit-rate digital signals, comprisingmeans for operating a plurality of fixed bit-rate first duplex channels at a first location for communication to a second location,means for combining a variable number of the first channels to provide a variable bit-rate second channel, andmeans for changing the number of first channels forming the second channel as required in the course of operation while continuing to transmit data over the second channel, comprising means for transmitting a predetermined distinctive sequence of digital signals from the first location when the number of first channels forming a second channel is to be reduced, the predetermined distinctive sequence being one which is not likely to occur in data to be transmitted by the second channel, andmeans for detecting the predetermined distinctive sequence when transmitted from the second location and received at the first location,the means for combining the first channels being arranged to cease to transmit data in one of the first channels which is to be removed from the second channel at a time having a first predetermined relationship to the transmission of the predetermined distinctive sequence and to omit, at a time having a second predetermined relationship to the reception of the predetermined distinctive sequence, any data received in the said one first channel from the output of the second channel, whereinthe means for operating the first channels comprises multiplex means for time division multiplexing a high bit-rate channel to provide the first channels, the first channels then being transmitted in a series of frames, and further comprisingmeans for defining a series of synchronisation times which are separated from one another by the same number of frames, and whereinthe means for changing the number of first channels is arranged to cease combining data from the said one channel at the frame following the next synchronisation time after reception of the predetermined distinctive sequence.
- View Dependent Claims (15, 16)
- - 15. Apparatus according to claim 14 whereinthe means for changing the number of first channels is arranged to cease transmitting data in the said one first channel at the frame following the next synchronisation time after reception of the predetermined distinctive sequence.
  - 16. Apparatus according to claim 15 whereinthe means for changing the number of first channels is arranged to send the predetermined distinctive sequence in any frame and to cease transmitting data in one of the first channels in the next frame,the means for detecting the predetermined distinctive sequence is arranged to examine every first channel in the second channel in each frame to determine whether the predetermined distinctive sequence is present, andthe means for changing the number of first channels is arranged to omit, from the output of the second channel, data received in the said one first channel in the next frame following that in which the predetermined distinctive sequence is received.

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Current Assignee
British Technology Group Ltd.
Original Assignee
British Technology Group Ltd.
Inventors
Burren, John W., Pound, Alan
Primary Examiner(s)
Olms, Douglas W.
Assistant Examiner(s)
Blum, Russell

Application Number

US07/889,590
Time in Patent Office

1,027 Days
Field of Search

370/24, 370/29, 370/79, 370/84, 370/85.7, 370/95.1
US Class Current

370/294
CPC Class Codes

H04J 3/1682 Allocation of channels acco...

H04Q 11/0428 Integrated services digital...

Variable data rate channels for digital networks

First Claim

1 Assignment

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Abstract

85 Citations

18 Claims

Specification

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Variable data rate channels for digital networks

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

85 Citations

18 Claims

Specification

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Solutions

Use Cases

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