Address coded communication system

US 4,563,774 A
Filed: 10/25/1982
Issued: 01/07/1986
Est. Priority Date: 10/25/1982
Status: Expired due to Fees

First Claim

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1. A digital communication system comprising a plurality of terminals, each terminal having a transmitter (11) and a receiver (12), guided transmission means (13, 14) for transmitting a digital message from each and every transmitter to each and every receiver, means at each receiver for generating for and thereby identifying each receiver by a different and unique digital word address, means (22, 23) at each transmitter for individually encoding each of the digital message bits to be transmitted to a particular receiver in the digital word address of that receiver, each address encoded message bit sequence being transmitted to said receiver a predetermined number of times, a plurality of correlator means (25) at each receiver each of which serves to correlate the incoming message information directed thereto with the receiver'"'"'s digital address, each correlator means producing an autocorrelation peak when a received address encoded message bit matches the receiver'"'"'s digital address, means (27) for summing the autocorrelation peaks from each of the correlator means, a means (26, 29) for reconfiguring a local receiver to match a given remote receiver prior to transmission to the latter from the local transmitter, the reconfigured local receiver serving to detect if the remote receiver is busy, and means (24) for inhibiting the transmission from the local transmitter if a busy condition is detected.

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Abstract

In the disclosed communication system the digital message bits (e.g., data bits) to be transmitted to a particular receiver are individually encoded in the digital address (of K bits) of that receiver. The receiver has a K(stage) correlation circuit which serves to correlate all incoming message information with its own digital address. In the case of a match, autocorrelation peaks appear at intervals determined by the digital message. A feature is to transmit each address sequence a number of times (e.g., 8) so as to reduce the likelihood of error.

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7 Claims

1. A digital communication system comprising a plurality of terminals, each terminal having a transmitter (11) and a receiver (12), guided transmission means (13, 14) for transmitting a digital message from each and every transmitter to each and every receiver, means at each receiver for generating for and thereby identifying each receiver by a different and unique digital word address, means (22, 23) at each transmitter for individually encoding each of the digital message bits to be transmitted to a particular receiver in the digital word address of that receiver, each address encoded message bit sequence being transmitted to said receiver a predetermined number of times, a plurality of correlator means (25) at each receiver each of which serves to correlate the incoming message information directed thereto with the receiver'"'"'s digital address, each correlator means producing an autocorrelation peak when a received address encoded message bit matches the receiver'"'"'s digital address, means (27) for summing the autocorrelation peaks from each of the correlator means, a means (26, 29) for reconfiguring a local receiver to match a given remote receiver prior to transmission to the latter from the local transmitter, the reconfigured local receiver serving to detect if the remote receiver is busy, and means (24) for inhibiting the transmission from the local transmitter if a busy condition is detected.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. A digital communication system as defined in claim 1 wherein said transmission means comprises a predetermined number of optical fibers associated with the transmitter and the receiver of each terminal, each of said predetermined number of address encoded sequences being coupled to a respective optical fiber.
  - 3. A digital communication system as defined in claim 2 including means (T₁ -T₈) for delaying the predetermined number of address encoded sequences in accordance with a selected delay pattern prior to coupling the sequences to said otical fibers, and delay means (26) at said particular receiver for reversing the delay pattern introduced at the transmitter so that the autocorrelation peaks from the correlator means are in synchronism.
  - 4. A digital communication system as defined in claim 3 wherein the delay means of each receiver has a unique delay pattern, the delay pattern introduced at each transmitter being the complement of the delay pattern of the intended receiver.
  - 5. A digital communication system as defined in claim 2 wherein the number of optical fibers is eight.
  - 6. A digital communication system as defined in claim 4 including decision means (28) coupled to receive the sum of the autocorrelation peaks from the summing means, said decision means serving to establish a threshold which is exceeded by the summed autocorrelation peaks but not normally by background peaks.

7. A spread spectrum multiple access communication system comprisinga plurality of terminals, each terminal having a transmitter (11) and a receiver (12),guided transmission means (13, 14) for transmitting a digital data message from each and every transmitter to each and every receiver,means (29) for generating a unique digital word address for each receiver,means (22) at each transmitter for generating the unique digital word address of the receiver for which said digital data message is intended,each transmitter having a plurality of delay devices (T₁ -T₈) each of which provides a predetermined amount of delay,means for coupling the bits of said digital data message to each of said delay devices,a plurality of multiplier means (23) for respectively address encoding the message bits by multiplying each of the delayed message bits with the unique digital word address of the intended receiver so that each address encoded message bit is transmitted to said receiver a predetermined number of times,a plurality of correlator means (25) at each receiver each of which serves to correlate the incoming message information directed thereto with the unique digital word address generated for the receiver,each correlator means producing an autocorrelation peak when a received address encoded message bit matches the unique digital word address of the receiver,a plurality of delay devices (26) respectively coupled to said plurality of correlator means for respectively delaying each autocorrelation peak a predetermined amount to thereby reverse the delay pattern introduced at the transmitter and bring the autocorrelation peaks from said correlator means into time coincidence,means (27) for summing the delayed autocorrelation peaks,means (26, 29) for reconfiguring a local receiver to match a given remote receiver prior to a transmission thereto by adopting for said local receiver the unique digital word address and the predetermined amounts of delay of the remote receiver,the reconfigured local receiver serving to detect if the remote receiver is busy, andmeans (24) for inhibiting the transmission from the local transmitter to said remote receiver if a busy condition is detected.

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Current Assignee
Bell Telephone Laboratories, Inc. (Nokia Corporation)
Original Assignee
AT&T, Inc.
Inventors
Gloge, Detlef C.
Primary Examiner(s)
NOT, DEFINED
Assistant Examiner(s)
NOT, DEFINED

Application Number

US06/436,576
Time in Patent Office

1,170 Days
Field of Search

455/601, 455/606, 455/607, 455/608, 455/612, 455/617, 455/38, 455/49, 364/728, 364/900, 364/200, 340/146.2, 340/825.5, 340/825.52, 370/89, 370/94, 370/85, 370/94 U, 375/1
US Class Current

398/166
CPC Class Codes

H04J 14/005   Optical Code Multiplex

H04L 12/40013   Details regarding a bus con...

H04L 12/407   with decentralised control

Address coded communication system

First Claim

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Abstract

112 Citations

7 Claims

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Address coded communication system

First Claim

1 Assignment

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Abstract

112 Citations

7 Claims

Specification

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