Communications network having a single node and a plurality of outstations

US 4,642,806 A
Filed: 09/05/1984
Issued: 02/10/1987
Est. Priority Date: 09/07/1983
Status: Expired due to Term

First Claim

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1. A communication system comprising a single node and a plurality of outstations arranged for communication using two communication channels, one of said communication channels being used for communicating signals from the node to all of the outstations, the other of said communication channels being shared by all of the outstations,wherein said communcation takes the form of traffic bursts within successive frame periods,each burst including a marker signal for synchronizationwherein the node includes a plurality of burst extraction means for extracting respective selected bursts from received signal frames;

wherein the outstations each include at least one burst extraction means for extracting respective selected bursts from received signal frame; and

wherein each burst extraction means includes frame synchronization means responsive only to the marker signals within its respective bursts.

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Abstract

In a time division multi-access communications system each burst in each slot commences with a preamble and the clocks used to control the sequence of operations are synchronized by means of these preambles. In particular the outstations control their transmissions to the node by timing pre-set delays from the receipt of the preamble. In a preferred embodiment the pre-set delays are adjusted by signals from the node so that bursts arrive at the node in correct sequence.

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25 Claims

1. A communication system comprising a single node and a plurality of outstations arranged for communication using two communication channels, one of said communication channels being used for communicating signals from the node to all of the outstations, the other of said communication channels being shared by all of the outstations,wherein said communcation takes the form of traffic bursts within successive frame periods,each burst including a marker signal for synchronizationwherein the node includes a plurality of burst extraction means for extracting respective selected bursts from received signal frames;
- wherein the outstations each include at least one burst extraction means for extracting respective selected bursts from received signal frame; and
  
  wherein each burst extraction means includes frame synchronization means responsive only to the marker signals within its respective bursts.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. A system according to claim 1, wherein each marker signal takes the form of preamble transmitted at the start of its burst, said preamble comprising(a) bit synchronisation followed by;
    - (b) byte synchronisation.
  - 3. A system according to claim 2, wherein the marker signals of bursts transmitted from node to outstations include the address of the destination and the marker signals of bursts from outstations to node include the address of the origin.
  - 4. A system according to any one of claims 1, 2 or 3 wherein the outstations include means for initiating a pre-set delay on receipt of a burst from the node and means for returning a burst to the node at the end of said pre-set delay.
  - 5. A system according to claim 4 wherein the node includes:
    - (a) means for checking the synchronization of received bursts;
      
      (b) means for producing error signals indicating the extent of any errors; and
      
      (c) means for transmitting said error signals to the originating outstations.
  - 6. A system according to claim 5 wherein the outstations include means for changing their standardised delays in accordance with received error signals whereby the node keeps correct synchronisation of its received signals.
  - 7. A system according to claim 1, wherein the node includes means for transmitting a system burst, said burst including identification which distinguishes said burst from all other bursts.
  - 8. A system according to claim 7 wherein said identification takes the form of distinctive byte synchronisation.
  - 9. A system according to claim 1, wherein each burst lasts between 1 μ
    - s and 1 ms.
  - 10. A system according to claim 1, wherein the node includes transmitting means for transmitting a frame which consists of a slot for a system burst followed by between 2 and 2000 slots for traffic bursts.
  - 11. A system according to claim 1, wherein the two communication channels take the form of radio channels of distinct frequencies.

12. A node for use in a communications system comprising a single node and a plurality of outstations arranged for communication using two communications channels, one of said communications channels being used for communication from the node to the outstations, the other communications channel being shared by the outstations, said node comprising:
- (a) means for receiving traffic for a plurality of outstations and dividing said traffic into portions suitable for transmission in a single burst;
  
  (b) means for producing bursts by combining said traffic portions with synchronization marker signals;
  
  (c) means for transmitting said bursts within successive frame periods in sequence to said plurality of outstations;
  
  (d) means for receiving signals originating from said plurality of outstations, said signals being in the form of bursts wherein each burst within successive frame periods includes synchronization marker signals;
  
  (e) a plurality of burst extraction means for selecting respective bursts from received frames, each extraction means including frame synchronization means responsive only to the marker signals within its respective bursts for synchronizing the said extraction to the receipt of said marker signals.
- View Dependent Claims (13)
- - 13. A node according to claim 12, which also includes means for comparing the times of arrival of received bursts with a specified schedule therefor and producing error signals indicative of discrepancies there between and means of transmitting said error signals to the outstations.

14. A node for use in a communications system comprising a single node and a plurality of outstations arranged for communication using two communications channels, one of said communications channels being used for communication from the node to the outstations, the other communications channel being shared by the outstations, said node comprising:
- (a) a transmitter for transmitting to a plurality of outstations;
  
  (b) a receiver for receiving from said plurality of outstations;
  
  (c) a plurality of terminal cards, each adapted to handle the traffic in a single slot, each of said cards being connected (i) to receive demodulated data from the receiver and (ii) to pass data for transmission to the transmitter;
  
  (d) a single system card, also connected to the receiver and the transmitter; and
  
  (e) supervisory means adapted to control the operating sequence of the terminal cards and the system card wherein the supervisory means is connected to the system card whereby the supervisory means can send system information and instructions to the outstations and also wherein each terminal card comprises;
  
  (c) (i) means for receiving traffic for its slot and dividing said traffic into portions suitable for transmission in a single slot;
  
  (c) (ii) means for producing bursts by combining said traffic portions with synchronization marker signals comprising bit synchronization and byte synchronization;
  
  (c) (iii) means for passing said bursts to the transmitter for transmission of traffic bursts within successive frame periods;
  
  (c) (iv) means for receiving demodulated signals from the receiver, said signals being in the form of bursts within successive frame periods, wherein each burst includes synchronization marker signals;
  
  (c) (v) timing means synchronizable with the frame period and adapted to actuate means (c) (iv) to operate in a pre-set phase of its own cycle;
  
  (c) (vi) means for recognizing the said marker signals within the received bursts for each slot and in resonse thereto to adjust the set point of the timing means so that the marker signal occurs at the correct phase of the cycle of the timing means.

15. An outstation for use in a communications system comprising a single node and a plurality of outstations arranged for communication using two communications channels, one of said communications channels being used for communication from the node to the outstations, the other communications channel being shared by the outstations, said outstation comprising:
- (a) means for receiving signals for a node, said signals taking the form of bursts within successive frame periods, wherein each burst includes synchronization marker signals;
  
  (b) timing means for identifying its own slot and selecting bursts contained therein;
  
  (c) means for receiving traffic for the node and dividing said traffic into portions suitable for transmission in a single burst;
  
  (d) means for producing bursts by combining said portions with synchronization marker signals;
  
  (e) means for transmitting said burst within successive frame periods to the node;
  
  (f) frame synchronization means responsive to marker signals within the said selected bursts for synchronizing said signal receiving means, timing means, traffic receiving means, burst producing means, and transmitting means.
- View Dependent Claims (16, 17)
- - 16. An outstation according to claim 15 which includes:
    - (a) a clock adapted to measure a pre-set delay;
      
      (b) means to initiate said clock on receipt of a preamble in its own slot;
      
      (c) means to initiate transmission means specified in part (e) of claim 15 when said clock ends the measure of the pre-set delay.
  - 17. An outstation according to claim 16, which also includes:
    - (a) means for for receiving error signals relating to the pre-set delay specified in part (a) of claim 16, and(b) means for adjusting said pre-set delay in accordance with said error signals.

18. An outstation for use in a communications system comprising a single node and a plurality of outstations arranged for communication using two communications channels, one of said communications channels being used for communication from the node to the outstations, the other communications channel being shared by the outstations, said outstation comprising:
- (a) a transmitter for transmitting to the node;
  
  (b) a receiver for receiving from the node;
  
  (c) one or more terminal cards, each adapted to handle the traffic in a single slot, each of said cards being connected to the receiver and the transmitter wherein each terminal card comprises;
  
  (c) (i) means for receiving traffic for transmission in its slot and dividing said traffic into portions suitable for transmission in a single slot;
  
  (c) (ii) means for producing bursts by combining said traffic portions with synchronization marker signals comprising bit synchronization and byte synchronization;
  
  (c) (iii) means for passing said bursts to the transmitter for transmission of traffic bursts within successive frame periods;
  
  (c) (iv) means for receiving demodulated signals from the receiver, said signals being in the form of bursts within successive frame periods, wherein each burst includes synchronization marker signals;
  
  (c) (v) means for recognizing bursts containing the address of a user and passing on traffic contained in bursts so identified;
  
  (c) (vi) timing means synchronizable with the frame period and adapted to activate means (c) (i) and (c) (iv) in correct sequence and at pre-set phases in its own cycle;
  
  (c) (vii) means for recognizing the said marker signals within the received bursts for its slots and to adjust the set point of the timing means in response to said recognized marker signals so that the marker signal occurs at the correct phase of the cycle of the timing means.

19. Interface circuit for performing send-and-receive functions of a telecommunications station so as to synchronise said function with a specified slot of time multiplexed operation between a single node and a plurality of terminals, characterised in that the interface circuit comprises:
- (a) enable means having first and second inputs and an output for synchronisation signals;
  
  (b) comparator means adapted to receive signals and connected to the first input of the enable means;
  
  (c) a cyclic timer adapted to receive a clock signal and to control the said send and receive functions to occur at preset phases of the cycle of the timer, said timer being connected to the second input of the enable means;
  
  (d) data capture means for receiving and retaining signal and operatively connected to receive synchronisation signals from the output of the enable means, said data capture means being adapted to initiate a data capture sequence on receipt of each synchronisation signal;
  
  (e) synchronisation means connected to receive synchronisation signals from the output of the enable means, said synchronisation means being adapted to produce an error signal measuring the discrepancy between the phase of the timer at which the synchronisation signal occurs and the predetermined phase of the cycle of the timer at which the synchronisation signal is supposed to occur;
  
  wherein;
  
  (i) said comparator means is adapted to compare received signal with a datum and to provide a coincidence signal to said first input of said enable means upon coincidences of said received signal with said datum, and(ii) said timer is adapted to define a synchronisation window and to provide an enable signal on said second input of said enable means during said time window;
  
  whereby the occurence within the time window of coincidences between the signal and the datum causes the enable means to provide a synchronisation signal.
- View Dependent Claims (20, 21, 22, 23)
- - 20. An interface according to claim 19, wherein the comparator means comprises a shift register for received signals, a datum register for holding the datum and a bit comparator for comparing each bit of the shift register with the corresponding bit of the datum register and producing the coincidence signal when all bits match.
  - 21. An interface according to claim 19, wherein the data capture means comprises a shift register which is adapted to receive data in bit serial form and transfer means adapted to transfer said data to random access memory in bit parallel form using a transfer cycle having a period equal to the number of bits in a byte, said transfer means being connected to the enable means in such a manner that the reception of a synchronisation signal adjusts the phase of the transfer cycle so that the signal bit following the synchronisation signal is the first of a new byte.
  - 22. Interface circuit according to claim 19 which also comprises a burst generator for providing signal bursts for transmission, wherein said burst generator is operatively connected to the timer for the initiation of bursts at a preset phase of the timer.
  - 23. Interface circuit according to claim 19, which also comprises means for changing the operating slot of the interface, said means comprising means for changing the phase of the timer to correspond to the phase of the new slot and means for changing the contents of the datum store to correspond to the datum of the new slot.

24. A method of communicating signals in frames between a central transceiver and a plurality of satellite transceivers comprising the steps of:
- (1) transmitting a first outward signal from said central transceiver over a first communications channel, said first outward signal including a first marker synchronization signal and also including address signals designating a first of said satellite transceivers;
  
  (2) receiving said first outward signal with said first satellite transceiver and distinguishing said first outward signal from other outward signals in response to said address signals included therein;
  
  (3) extracting said first marker signal from said first outward signal with said first satellite transceiver;
  
  (4) a pre-set delay after said extracting step (3) is performed, said preset delay dependent upon on the propagation delay between said first satellite transceiver and said central transceiver, transmitting a first inward signal from said first satellite transceiver over a further communications channel;
  
  (5) transmitting a second outward signal from said central transceiver over said first communications channel, said second outward signal including a second marker synchronization signal having a predetermined timing relationship with said first marker signal, said second outward signal also including address signals designating a second of said satellite transceivers;
  
  (6) receiving said second outward signal with said second satellite transceiver and distinguishing said second outward signal from other outward signals in response to said address signals included therein;
  
  (7) extracting said second marker signal from said second outward signal with said second satellite transceiver;
  
  (8) a pre-set delay after said extracting step (7), said pre-set delay dependent upon the propagation delay between said second transceiver and said central transceiver, transmitting a second inward signal from said second satellite transceiver over said further communications channel; and
  
  (9) receiving said first and second inward signals with said central station during respective discrete time intervals of a frame without overlap and in a predetermined sequence.

25. A system for communicating signals in a frame, said system comprising:
- a central transceiver including;
  
  transmitting means for transmitting outward signals over a first communication channel,receiving means for receiving inward signals over a further communications channel, andcontrol means connected to said transmitting means and receiving means for controlling said transmitting means to transmit over said first communications channel (1) a first outward signal including a first marker synchronization signal and address signals designating a first satellite transceiver and (2) a second outward signal including a second marker synchronization signal having a predetermined timing relationship with said first marker signal and including address signals designating a second satellite transceiver;
  
  a first satellite transceiver including;
  
  receiving means for receiving said first outward signal and for distinguishing said first outward signal from other outward signals in response to said address signals included therein,extracting means, connected to said receiving means, for extracting said first marker signal from said first outward signal,means, connected to said extracting means, for timing a pre-set delay dependent on the propagation delay between said first satellite transceiver and said central transceiver beginning at the time said first marker signal is extracted, andmeans, connected to said timing means, for transmitting a first inward signal over said further communications channel beginning at the time said delay timed by said timing means has elapsed; and
  
  a second satellite transceiver including;
  
  means for receiving said second outward signal and for distinguishing said second outward signal from other outward signals in response to said address signals included therein,extracting means, connected to said receiving means, for extracting said second marker signal from said second outward signal,timing means, connected to said extracting means, for timing a pre-set delay dependent on the propagation delay between said second satellite transceiver and said central transceiver beginning at the time said extracting means extracts said second marker signal, andtransmitting means connected to said timing means for transmitting a second inward signal over said further communications channel beginning at the time said delay timed by said timing means has elapsed,wherein said central transceiver receiving means receives said first and second inward signals during discrete, sequential non-overlapping time intervals in a frame.

Specification

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Current Assignee
British Telecommunications PLC (BT Group PLC)
Original Assignee
British Telecommunications PLC (BT Group PLC)
Inventors
Hewitt, Michael T. H., Scott, Richard P. I., Ballance, John W.
Primary Examiner(s)
Olms, Douglas W.

Application Number

US06/647,441
Time in Patent Office

888 Days
Field of Search

370/104, 370/93, 370/95, 370/103, 455/11, 455/12, 455/13, 455/51, 455/54, 375/107
US Class Current

370/347
CPC Class Codes

H04B 7/24 for communication between t...

H04J 3/0682 by delay compensation, e.g....

Communications network having a single node and a plurality of outstations

First Claim

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Communications network having a single node and a plurality of outstations

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