High-speed facility protection in a digital telecommunications system

US 5,329,520 A
Filed: 07/17/1992
Issued: 07/12/1994
Est. Priority Date: 07/17/1992
Status: Expired due to Term

First Claim

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1. A method of facility protection by a cross-connect in a telecommunications system, in which a facility is received by the cross-connect at one of first and second input ports from first and second redundant network lines, and is communicated to a head output port, and wherein the cross-connect is configured as a switching matrix of the Clos type having a first stage associated with each of the first and second input ports, a third stage associated with the head output port, and with a center stage for coupling the first and second input ports to the head output port, comprising the steps of:

monitoring the received facility at the first stage of the switching matrix associated with the first input port to detect an errored condition; and

responsive to detecting an errored condition, connecting, at the third stage of the switching matrix associated with the head output port, the head output port to the second input port so that the head output port receives the facility from the second input port.

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Abstract

A digital communications system with fast facility protection is disclosed. The system includes at least one digital cross-connect which is in bidirectional communication with east and west routes of the network via east and west transmit ports and east and west receive ports. The cross-connect broadcasts a facility over both the east and west routes, and receives the return facility over one of the routes. The cross-connect monitors the error status of the received facility for hard error conditions and excessive error rates, by way of a distributed processor in communication with the port. In the event of an error, the cross-connect blind switches the facility to the inactive port by way of a receive-end switch, according to a first embodiment. According to another embodiment, a head-end switch is performed, thus allowing for improved flexibility for port assignment in the cross-connect.

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14 Claims

1. A method of facility protection by a cross-connect in a telecommunications system, in which a facility is received by the cross-connect at one of first and second input ports from first and second redundant network lines, and is communicated to a head output port, and wherein the cross-connect is configured as a switching matrix of the Clos type having a first stage associated with each of the first and second input ports, a third stage associated with the head output port, and with a center stage for coupling the first and second input ports to the head output port, comprising the steps of:
- monitoring the received facility at the first stage of the switching matrix associated with the first input port to detect an errored condition; and
  
  responsive to detecting an errored condition, connecting, at the third stage of the switching matrix associated with the head output port, the head output port to the second input port so that the head output port receives the facility from the second input port.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The method of claim 1, wherein the monitoring step comprises:
    - detecting coding violations in the received facility over a selected period of time, said errored condition including the number of detected coding violations exceeding a limit.
  - 3. The method of claim 2, wherein said monitoring step further comprises:
    - detecting a hard error signal in the received facility.
  - 4. The method of claim 1, wherein said cross-connect further comprises first and second output ports coupled to the first and second redundant network lines, and coupled to receive digital signals from a head input port;
    - further comprising;
      
      broadcasting said digital signals received at the head input port at both of said first and second output ports onto the first and second network lines.
  - 5. The method of claim 4,wherein said broadcasting step is performed from a first stage of the switching matrix.
  - 6. The method of claim 1, wherein said monitoring step further comprises:
    - after detecting an error condition, coupling the second input port to a protection output port; and
      
      examining the facility at the protection output port;
      
      and wherein said connecting step is performed responsive to the step of examining the facility at said protection output port.

7. A cross-connect system having facility protection capability, comprising:
- a plurality of ports, including n east input port and a west input port for receiving a facility from east and west lines in a telecommunication system, and including a head output port for communicating the facility received at one of said east and west input ports to another network;
  
  a central processing unit, coupled to a bus;
  
  a cross-connect matrix of the Clos type, having first, center and third stages, said cross-connect matrix coupled to said bus; and
  
  an interface processing unit coupled to said bus and to said east and west input ports, comprising;
  
  a first interface processor coupled to a first stage of said cross-connect matrix associated with said east input port, for connecting a facility received thereat to a center stage of said cross-connect matrix, and for monitoring the received facility for an errored condition;
  
  a second interface processor coupled to a first stage of said cross-connect matrix associated with said west input port, for connecting a facility received thereat to a center stage of said cross-connect matrix, and for monitoring the received facility for an errored condition; and
  
  a third interface processor coupled to a third stage of said cross-connect matrix associated with said head output port, for coupling the third stage to one of said first stages to receive the facility from a first one of the east and west input ports, and for controlling the third stage to switch said head output port to receive the facility from a second one of said east and west input ports responsive to the monitoring performed by the interface processor associated with the first one of said east and west input ports indicating an errored condition.
- View Dependent Claims (8, 9, 10)
- - 8. The system of claim 7, wherein said interface processing unit further comprises:
    - a center interface processor coupled to the center stage of the cross-connect matrix to which the first stage is coupled by said first interface processor.
  - 9. The system of claim 7,wherein said interface processing unit further comprises:
    - a first first/third stage circuit associated with said east input port, controlled by said first interface processor;
      
      a second first/third stage circuit associated with said west input port, controlled by said second interface processor; and
      
      a third first/third stage circuit associated with said head output port, controlled by said third interface processor.
  - 10. The system of claim 9, wherein said third first/third stage circuit is further associated with a protection output port;
    - and wherein, responsive to the monitoring performed by the interface processor associated with the first one of said east and west input ports indicating an errored condition, said third interface processor controls said third first/third stage circuit to switch said protection output port to receive the facility from the second one of said east and west input ports for monitoring.

11. A digital telecommunications system, comprising:
- first and second transmission lines; and
  
  a first cross-connect, comprising;
  
  a plurality of ports, including first and second input ports for receiving a first facility from said first and second transmission lines, respectively, and including a head output port for presenting the first facility;
  
  a central processing unit, coupled to a bus;
  
  a cross-connect matrix of the Clos matrix type, having first, center and third stages, and coupled to said bus;
  
  an interface processing unit coupled to said bus and to said first and second input ports, for connecting the facility received at one of said first and second input ports to said cross-connect matrix, for monitoring the first facility to detect an error condition, and for switching to connect the other of said first and second input ports to said cross-connect matrix responsive to detecting the error condition, comprising;
  
  a plurality of interface processors; and
  
  a plurality of first/third stage circuits, each coupled to an associated one of said plurality of interface processors;
  
  wherein said first input port corresponds to a first one of said first/third stage circuits, controlled by a first one of said plurality of interface processors so that a facility received at the first input port is monitored for detection of an
- View Dependent Claims (12, 13)
- - 12. The system of claim 11, wherein said first cross-connect further comprises:
    - first and second output ports, for broadcasting a second facility to said first and second transmission lines, respectively, from digital signals received at a head input port, said first and second output ports coupled to said head input port via said cross-connect matrix.
  - 13. The system of claim 12, further comprising:
    - a second cross-connect, comprising;
      
      a plurality of ports, including first and second input ports for receiving the second facility from said first and second transmission lines, respectively, and first and second output ports for broadcasting the first facility to said first and second transmission lines, respectively, including a head output port for presenting the second facility and a head input port for receiving digital signals corresponding to the first facility;
      
      a central processing unit, coupled to a bus;
      
      a cross-connect matrix, coupled to said bus;
      
      error condition at said first one of said plurality of first/third stage circuits;
      
      wherein said second input port corresponds to a second one of said first/third stage circuits, controlled by a second one of said plurality of interface processors;
      
      and wherein said first and second ones of said first/third stage circuits are coupled to a third one of said first/third stage circuits corresponding to said head output port, controlled by a third one of said plurality of interface processors so that, responsive to the detection of an error condition in the monitored facility received at the first input port, the third first/third stage switches said head output port to receive the facility from said second input port.an interface processing unit coupled to said bus and to said first and second input ports, for connecting the second facility received at one of said first and second input ports to said cross-connect matrix, for monitoring the second facility to detect an error condition, and for switching to connect the other of said first and second input ports to said cross-connect matrix responsive to detecting the error condition.

14. A method of providing line protection for a telecommunications system including a fiber optic line in such a manner as to eliminate the need for providing a redundant fiber optic line, comprising:
- providing a redundant route relative to the fiber optic line;
  
  broadcasting a facility over the fiber optic line and the redundant route to a cross-connect configured as a switching matrix of the Clos type, the cross-connect having first and second ports coupled to the fiber optic line and to the redundant route, respectively, the cross-connect having a head port for presenting the received facility, the head port coupled via a cross-connect matrix to the first port;
  
  monitoring the received facility at a first stage of said switching matrix associated with the first port to detect an errored condition; and
  
  responsive to detecting an errored condition, connecting the head port to the second port to receive the facility thereat by switching a third stage of the switching matrix which is associated with the head port and which is coupled to the first and second ports by way of center stages of the switching matrix.

Specification

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Litigation Campaign Assessment

Current Assignee
Alcatel Network Systems India Limited (Nokia Corporation)
Original Assignee
Alcatel Network Systems India Limited (Nokia Corporation)
Inventors
Richardson, C. Douglas
Primary Examiner(s)
Olms, Douglas W.
Assistant Examiner(s)
MARCELO, MELVIN C

Application Number

US07/915,449
Time in Patent Office

725 Days
Field of Search

370/16, 370/16.1, 340/825.01, 340/825.03, 340/826, 340/827, 340/825.8, 359/110, 371/8.1, 371/8.2, 371/11.1, 371/11.2, 371/20.1
US Class Current

370/225
CPC Class Codes

H04J 3/14   Monitoring arrangements for...

H04M 3/12   Marking faulty circuits "bu...

H04M 3/32   for lines between exchanges

H04Q 1/245   in time-division multiplex ...

H04Q 11/0421   Circuit arrangements therefor

H04Q 3/0016   Arrangements providing conn...

High-speed facility protection in a digital telecommunications system

First Claim

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Abstract

156 Citations

14 Claims

Specification

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High-speed facility protection in a digital telecommunications system

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

156 Citations

14 Claims

Specification

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Solutions

Use Cases

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