Geographic redundancy for call servers in a cellular system based on a bearer-independent core network

US 7,532,568 B1
Filed: 07/08/2003
Issued: 05/12/2009
Est. Priority Date: 07/09/2002
Status: Expired due to Fees

First Claim

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1. A method for transferring call control to a backup call server, comprising:

transmitting call setup signals between a calling party mobile station and a Base Station Controller (BSC);

transmitting call setup signals between the BSC and an originating Mobile Switching Center (MSC) and between the originating MSC and a gateway-MSC (G-MSC) by way of a first signaling gateway, and between the G-MSC and a Home Location Register (HLR), wherein the call setup signals are transmitted between the G-MSC and the HLR by way of a second signaling gateway, to determine a destination MSC;

transmitting destination MSC information from the HLR to the G-MSC by way of the second signaling gateway;

when the destination MSC fails, routing call setup signals received from the G-MSC to a backup MSC and establishing a call connection between the backup MSC and the originating MSC;

when the G-MSC fails, routing the call setup signals received for the G-MSC to a backup G-MSC and establishing a call connection between the backup G-MSC and the originating MSC; and

establishing a call connection between the calling party mobile station and a called party mobile station using at least one of the backup G-MSC and the backup MSC.

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Abstract

In a bearer-independent core network, the switching and transport of the bearer streams is separated from the processing of call sessions that control the bearer streams. The switching and transport of the bearer streams is executed by media gateways and packet switches in the switching and transport layer of the network. The processing of calls sessions that control the bearer streams is executed by call servers in the call control layer of the network. The switching and transport layer of the network may be implemented using ATM or IP technology. In order to redirect the signaling links to a backup call server, a signaling gateway is used. Each media gateway includes a signaling gateway function. The signaling gateways redirect the signaling links by encapsulating each signaling message in a new packet in one embodiment.

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9 Claims

1. A method for transferring call control to a backup call server, comprising:
- transmitting call setup signals between a calling party mobile station and a Base Station Controller (BSC);
  
  transmitting call setup signals between the BSC and an originating Mobile Switching Center (MSC) and between the originating MSC and a gateway-MSC (G-MSC) by way of a first signaling gateway, and between the G-MSC and a Home Location Register (HLR), wherein the call setup signals are transmitted between the G-MSC and the HLR by way of a second signaling gateway, to determine a destination MSC;
  
  transmitting destination MSC information from the HLR to the G-MSC by way of the second signaling gateway;
  
  when the destination MSC fails, routing call setup signals received from the G-MSC to a backup MSC and establishing a call connection between the backup MSC and the originating MSC;
  
  when the G-MSC fails, routing the call setup signals received for the G-MSC to a backup G-MSC and establishing a call connection between the backup G-MSC and the originating MSC; and
  
  establishing a call connection between the calling party mobile station and a called party mobile station using at least one of the backup G-MSC and the backup MSC.
- View Dependent Claims (2, 3)
- - 2. The method of claim 1 wherein the step of routing the call setup signals from the G-MSC to the backup MSC further comprises routing a first portion of the call setup signals from the G-MSC to a first backup MSC and a second portion of the call setup signals from the G-MSC to a second backup MSC, the backup MSC including the first backup MSC and the second backup MSC.
  - 3. The method of claim 1 wherein the step of routing the call setup signals from the G-MSC to the backup MSC further comprises routing a first portion of the call setup signals to a first backup G-MSC and a second portion of the call setup signals to a second backup G-MSC, the backup G-MSC including the first backup G-MSC and the second backup G-MSC.

4. A cellular network, comprising:
- a Gateway Mobile Switching Station (G-MSC) for establishing call connections between originating MSCs and destination MSCs;
  
  a Home Location Register (HLR) for providing location information to the G-MSC as a part of call setup;
  
  a first signaling gateway within a plurality of signaling gateways coupled between each of a plurality of MSCs and the G-MSC;
  
  a second signaling gateway within the plurality of signaling gateways coupled between the G-MSC and the HLR;
  
  wherein the HLR identifies a destination MSC for a call being setup based upon a called party mobile station location record maintained in the HLR and transmits call signaling messages to the second gateway;
  
  wherein the second signaling gateway redirects the call signaling messages to a first backup G-MSC upon detecting that the G-MSC is in an inactive state; and
  
  wherein the first signaling gateway redirects the call signaling messages to a second backup G-MSC upon detecting that the G-MSC is in an inactive state.
- View Dependent Claims (5, 6, 7, 8)
- - 5. The cellular network of claim 4 wherein the second gateway coupled between the G-MSC and the HLR comprises one of a plurality of signaling gateways.
  - 6. The cellular network of claim 4 further comprising at least one signaling gateway coupled between the G-MSC and an originating MSC.
  - 7. The cellular network of claim 4 further comprising at least one signaling gateway coupled between the G-MSC and the destination MSC.
  - 8. The cellular network of claim 7 wherein at least one of the first and second backup G-MSC also operates as a primary G-MSC.

9. A signaling gateway for a cellular network coupled to communicate with a destination switching element and to at least one home location register (HLR), comprising:
- a processor;
  
  a memory for storing computer instructions that define the operational logic of the signaling gateway, wherein the computer instructions include logic for;
  
  receiving call signaling messages from the at least one HLR or an initiating Mobile Switching Station (MSC);
  
  determining whether the destination switching element is in an inactive state;
  
  if the destination switching element is in an inactive state, determining a first-backup switching element;
  
  transparently forwarding the call signaling messages to the first backup switching element; and
  
  determining a second backup switching element and forwarding a first group of call signaling messages to the first backup switching element and forwarding a second group of call signaling messages to the second backup switching element.

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Current Assignee
RPX Clearinghouse LLC (RPX Corporation)
Original Assignee
Nortel Networks Limited (Nortel Networks Corporation)
Inventors
Kolski, Stephen, Maxwell, Stewart, Boudreaux, Paul
Primary Examiner(s)
Orgad, Edan
Assistant Examiner(s)
Wong, Blanche

Application Number

US10/615,260
Time in Patent Office

2,135 Days
Field of Search

370/237, 370/219, 370/224, 370/227, 370/230.1, 370/260, 370/261, 370/229, 370/235, 710 15- 18
US Class Current

370/217
CPC Class Codes

H04L 65/1046   Call controllers; Call servers

H04L 65/80   Responding to QoS

H04M 3/2263   Network management

H04M 7/0084   Network monitoring; Error d...

H04W 24/04   Arrangements for maintainin...

H04W 28/021   in wireless networks with c...

H04W 36/22   for handling the traffic

H04W 76/00   Connection management

H04W 88/14   Backbone network devices

Geographic redundancy for call servers in a cellular system based on a bearer-independent core network

First Claim

12 Assignments

0 Petitions

Accused Products

Abstract

33 Citations

9 Claims

Specification

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Geographic redundancy for call servers in a cellular system based on a bearer-independent core network

First Claim

12 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

33 Citations

9 Claims

Specification

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Solutions

Use Cases

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