Multisite trunked RF communication system with reliable control messaging network

US 5,365,512 A
Filed: 07/02/1993
Issued: 11/15/1994
Est. Priority Date: 07/02/1993
Status: Expired due to Fees

First Claim

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1. A system for enhancing the reliability of a trunked radio frequency (RF) multisite communications switch connecting plural site controllers, each site controller coordinating RF communications between multiple radio units in corresponding geographical site areas and the switch, the switch comprising:

multiple microprocessor-controlled nodes for interfacing communications between corresponding site controllers to the switch;

a back plane connected to each of the nodes with a first one of the nodes connected at one end of the back plane and a second one of the nodes connected at the opposite end, including;

a time division multiplex (TDM) audio bus for transferring digital audio information between various site controllers via corresponding nodes;

plural control message buses for transferring control messages between the nodes; and

a bus control line connected across the back plane to each node for directing each of the nodes to select one of the plural message buses,wherein the first node polls each node over the selected message bus and includes means for detecting absence of a predetermined polling response from the second node and thereafter commanding all of the nodes to select another of the plural buses.

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Abstract

A distributed switching network (switch) routes audio and control signals throughout the switch from various audio sources to one or more audio destinations. Audio sources such as mobile/portable radio units (via RF repeater transmitters), dispatch consoles, and landline telephone subscribers (via the central telephone switching network) are preassigned and routed onto an audio channel (i.e. a time slot) on a time division multiplexed (TDM) audio bus through a corresponding node. Each microprocessor controlled node is connected to plural control message buses provided for transferring control messages between nodes. A first supervisory node is physically connected at one end of the message buses and an end node is connected at the other end. If the end node fails to respond to a polling message from the supervisory node within a predetermined time period, the supervisory node assumes that the current messaging bus is faulty and initiates a bus switching operation to an alternate messaging bus. The supervisory and end nodes thereafter coordinate switching of all nodes in the switch to the alternate control messaging bus to insure reliable trunked RF communications over the multisite network.

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15 Claims

1. A system for enhancing the reliability of a trunked radio frequency (RF) multisite communications switch connecting plural site controllers, each site controller coordinating RF communications between multiple radio units in corresponding geographical site areas and the switch, the switch comprising:
- multiple microprocessor-controlled nodes for interfacing communications between corresponding site controllers to the switch;
  
  a back plane connected to each of the nodes with a first one of the nodes connected at one end of the back plane and a second one of the nodes connected at the opposite end, including;
  
  a time division multiplex (TDM) audio bus for transferring digital audio information between various site controllers via corresponding nodes;
  
  plural control message buses for transferring control messages between the nodes; and
  
  a bus control line connected across the back plane to each node for directing each of the nodes to select one of the plural message buses,wherein the first node polls each node over the selected message bus and includes means for detecting absence of a predetermined polling response from the second node and thereafter commanding all of the nodes to select another of the plural buses.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The switch according to claim 1, the first node further comprising:
    - means for identifying that the second node is configured as an end node connected at the other end of the back plane.
  - 3. The switch according to claim 1, wherein the means for commanding generates a change control bus signal over the bus control line.
  - 4. The switch according to claim 1, the first node further comprising:
    - a timer for monitoring the period of time during which the second node should respond to a polling message from the first node, wherein the first node detects the absence of the second node polling response when the timer expires.
  - 5. The switch according to claim 1, further comprising:
    - another control line across the back plane connected to the first and second nodes, wherein the second node upon detecting a change in the signal status over the another control line, automatically selects another of the plural control message buses and generates a bus switching command over the bus control line.
  - 6. The switch according to claim 5, wherein the first node changes the state of a signal output on said another control line when the absence of the predetermined polling response from the second node is detected.
  - 7. The switch according to claim 1, further comprising:
    - means for limiting the number of times the nodes select another message bus.
  - 8. The switch according to claim 1, wherein each node is assigned an address identifier and sends that identifier to the first node in response to polling.
  - 9. The switch according to claim 1, wherein the first node is a controller node including:
    - a timer;
      
      means for checking each node'"'"'s polling response to determine if it is the second node; and
      
      means for resetting the timer when the polling response is received from the second node during a predetermined time period.

10. A method for detecting a break in a message bus connecting plural microprocessor-controlled nodes connected via first and second message buses in a trunked radio frequency multisite communications network, comprising:
- (a) connecting each of the nodes to a back plane which includes the message buses and a first control line;
  
  (b) providing a control node at one end of the back plane;
  
  (c) providing an end node at the other end of the back plane;
  
  (d) the control node periodically polling the other nodes;
  
  (e) detecting an absence of a polling response from the end node;
  
  (f) in the absence of the end node polling response, changing the state of the first control line;
  
  (g) the end node detecting the change of state of the first control line and generating a bus switching control signal in response thereto; and
  
  (h) in response to a bus switching control signal from one of the control node and the end node, all of the nodes switching substantially simultaneously from the first bus to the second bus.
- View Dependent Claims (11, 12, 13)
- - 11. The method according to claim 10, further comprising:
    - switching back to the first bus upon detecting continued absence of the polling response from the end node, andthereafter prohibiting further message bus switching.
  - 12. The method according to claim 10, wherein the absence of the polling response from the end node is communicated to a switch supervisor.
  - 13. The method according to claim 10, step (f) further comprising:
    - changing the state of a second control line in the absence of the end node polling response, and step (g) further comprises the end node detecting the change in state of the second control line and generating a bus switching control signal in response thereto.

14. A switch, comprising:
- a back plane including plural control message buses and a control line;
  
  multiple, processor-controlled nodes operatively connected to one of the control message buses and to a control line of the back plane, wherein when one end node polls other nodes on one of the control message buses and detects that a response is not received from the other end node, the one end node commands all of the other nodes over the control line to switch to another control message bus.

15. A method comprising the steps of:
- (a) connecting multiple nodes to plural control message buses and a control line of a back plane;
  
  (b) one end node polling the other nodes on one of the control message buses;
  
  (c) detecting when a response to the polling step (b) is not received from the other end node;
  
  (d) in response to the detecting step (c), the one end node commanding all the other nodes over the control line to switch to another control message bus.

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Current Assignee
Com-Net Ericsson Canada Corp., Com-Net Ericsson Critical Radio Systems, Inc.
Original Assignee
Telefonaktiebolaget LM Ericsson
Inventors
Combs, Edward A., Maddox, Dennis M., Imron, Wim A.
Primary Examiner(s)
Olms, Douglas W.
Assistant Examiner(s)
Kizou, Hassan

Application Number

US08/084,944
Time in Patent Office

501 Days
Field of Search

370/58.1, 370/58.3, 370/66, 370/67, 370/68.1, 370/53, 370/85.1, 370/85.7, 370/85.8, 370/85.9, 370/85.11, 370/95.1, 370/95.2, 370/95.3, 370/13, 370/16, 370/16.1, 371/8.1, 371/8.2, 371/11.1, 371/11.2, 371/48, 340/825.01, 340/825.03, 340/827, 340/825.08, 340/825.16, 379/58, 379/221, 379/16, 455/8, 455/53.1, 455/54.1
US Class Current

370/341
CPC Class Codes

H04W 84/08 Trunked mobile radio systems

Multisite trunked RF communication system with reliable control messaging network

First Claim

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Abstract

121 Citations

15 Claims

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Multisite trunked RF communication system with reliable control messaging network

First Claim

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Abstract

121 Citations

15 Claims

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