Support of disparate addressing plans and dynamic HA address allocation in mobile IP

US 8,559,411 B2
Filed: 04/07/2008
Issued: 10/15/2013
Est. Priority Date: 04/08/2002
Status: Expired due to Fees

First Claim

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1. A communications method for use in a communications system including a first network address domain, a second network address domain, and an intermediate node, said intermediate node including first and second interfaces, said first interface having a first network address routable in the first network address domain, said second interface having a second network address routable in said second network address domain, said first and second network address domains being different, said system further including a downstream node and an upstream node, said downstream node having an interface and a network address in the first network address domain, said upstream node having an interface and a network address in the second network address domain, the method comprising the steps of:

operating the upstream node to receive a second message including a second message body and a second header, said second message body including at least one instruction from said downstream node and said second network address corresponding to said second interface, said second header including a destination address corresponding to said upstream node, said at least one instruction having been received by said intermediate node in a first message from said downstream node, and said at least one instruction being an instruction for invoking a process between the upstream node and the intermediate node, wherein said second message includes an intermediate node downstream address that was dynamically allocated at the downstream node; and

operating the upstream node to use said second network address in a tunnel establishment operation implemented in accordance with said at least one instruction, wherein said at least one instruction is an instruction to send a third messages, said third message including the intermediate node downstream address that was dynamically allocated at the downstream node and an intermediate node upstream address which was generated at the intermediate node.

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Abstract

Methods and apparatus for enhancing Mobile IP signaling and to support use of disparate addressing plans and dynamic Home Agent allocation in Mobile IP Regional Tunneling are described. The enhanced methods of signaling use an intermediate node, e.g., a Gateway Foreign Agent, straddling different addressing domains, when the signaling controls a process between the intermediate node and an upstream node. The specific intermediate node, its interfaces and upstream addresses can be dynamically selected. The Enhanced MIP signaling includes dynamic allocation of: a regional node at a Foreign Agent, the upstream address of a regional node by the regional node, a Home Agent for a regional node prior to dynamic allocation of the regional node. A method is supported to indicate to a Mobile Node that a dynamically allocated regional node has become invalid triggering enhanced MIP signaling dynamically allocating a new regional node and upstream interface address.

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14 Claims

1. A communications method for use in a communications system including a first network address domain, a second network address domain, and an intermediate node, said intermediate node including first and second interfaces, said first interface having a first network address routable in the first network address domain, said second interface having a second network address routable in said second network address domain, said first and second network address domains being different, said system further including a downstream node and an upstream node, said downstream node having an interface and a network address in the first network address domain, said upstream node having an interface and a network address in the second network address domain, the method comprising the steps of:
- operating the upstream node to receive a second message including a second message body and a second header, said second message body including at least one instruction from said downstream node and said second network address corresponding to said second interface, said second header including a destination address corresponding to said upstream node, said at least one instruction having been received by said intermediate node in a first message from said downstream node, and said at least one instruction being an instruction for invoking a process between the upstream node and the intermediate node, wherein said second message includes an intermediate node downstream address that was dynamically allocated at the downstream node; and
  
  operating the upstream node to use said second network address in a tunnel establishment operation implemented in accordance with said at least one instruction, wherein said at least one instruction is an instruction to send a third messages, said third message including the intermediate node downstream address that was dynamically allocated at the downstream node and an intermediate node upstream address which was generated at the intermediate node.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The method of claim 1, wherein said first and second messages are mobile IP messages.
  - 3. The method of claim 1, wherein said at least one instruction is used in establishing a tunnel between the upstream node and the intermediate node.
  - 4. The method of claim 1, wherein the second message body includes the first network address of said first interface of said intermediate node.
  - 5. The method of claim 1, wherein the downstream node is a MIP (Mobile IP) foreign agent, the upstream node is a MIP home agent and the intermediate node is a Gateway Foreign Agent.
  - 6. The method of claim 5, wherein said second message includes the intermediate node upstream address which was generated at the intermediate node.
  - 7. The method of claim 6, wherein said at least one instruction is an instruction used to control construction of a MIP tunnel between the MIP Home Agent and the Gateway Foreign Agent, the method further comprising:
    - operating the MIP Home Agent to send said third message, said third message being sent to the Gateway Foreign Agent as part of a MIP tunnel establishment process.

8. An upstream node for use in a communications system including a first network address domain, a second network address domain, and an intermediate node including first and second interfaces, said first interface having a first network address routable in the first network address domain, said second interface having a second network address routable in said second network address domain, said first and second network address domains being different, said system further including a downstream node and an upstream node, said downstream node having an interface and a network address in the first network address domain, said upstream node having an interface and a network address in the second network address domain, said upstream node comprising:
- means for receiving a second message including a second message body and a second header, said second message body including at least one instruction from said downstream node and said second network address corresponding to said second interface, said second header including a destination address corresponding to said upstream node, said at least one instruction having been received by said intermediate node in a first message from said downstream node, and said at least one instruction being an instruction for invoking a process between the upstream node and the intermediate node, wherein said second message includes an intermediate node downstream address that was dynamically allocated at the downstream node; and
  
  means for processing said second message to use said second network address in a tunnel establishment operation implemented in accordance with said at least one instruction, wherein said at least one instruction is an instruction to send a third messages, said third message including the intermediate node downstream address that was dynamically allocated at the downstream node and an intermediate node upstream address which was generated at the intermediate node.
- View Dependent Claims (9, 10)
- - 9. The upstream node of claim 8, wherein said at least one instruction is used in establishing a tunnel between said upstream node and said intermediate node.
  - 10. The upstream node of claim 8, wherein the second message body includes the first network address of said first interface of said intermediate node.

11. An upstream node for use in a communications system including a first network address domain, a second network address domain, and an intermediate node including first and second interfaces, said first interface having a first network address routable in the first network address domain, said second interface having a second network address routable in said second network address domain, said first and second network address domains being different, said system further including a downstream node and an upstream node, said downstream node having an interface and a network address in the first network address domain, said upstream node having an interface and a network address in the second network address domain, said upstream node comprising:
- a receiver for receiving a second message including a second message body and a second header, said second message body including at least one instruction from said downstream node and said second network address corresponding to said second interface, said second header including a destination address corresponding to said upstream node, said at least one instruction having been received by said intermediate node in a first message from said downstream node, and said at least one instruction being an instruction for invoking a process between the upstream node and the intermediate node, wherein said second message includes an intermediate node downstream address that was dynamically allocated at the downstream node; and
  
  a processing module for processing said second message to use said second network address in a tunnel establishment operation implemented in accordance with said at least one instruction.
- View Dependent Claims (12)
- - 12. The upstream node of claim 11, wherein said at least one instruction is used in establishing a tunnel between said upstream node and said intermediate node.

13. A computer program product comprising:
- a non-transitory machine readable medium embodying machine executable instructions for controlling an upstream node in a communications system including a first network address domain, a second network address domain, and an intermediate node including first and second interfaces, said first interface having a first network address routable in the first network address domain, said second interface having a second network address routable in said second network address domain, said first and second network address domains being different, said system further including a downstream node and an upstream node, said downstream node having an interface and a network address in the first network address domain, said upstream node having an interface and a network address in the second network address domain, the machine readable medium comprising;
  
  instructions for causing the upstream node to process a second message received from the intermediate node, the second message including a second message body and a second header, said second message body including at least one instruction from said downstream node and said second network address corresponding to said second interface, said second header including a destination address corresponding to said upstream node, said at least one instruction having been received by said intermediate node in a first message from said downstream node, wherein said second message includes an intermediate node downstream address that was dynamically allocated at the downstream node, and said at least one instruction being an instruction for invoking a process between the upstream node and the intermediate node; and
  
  instructions for causing the upstream node to use said second network address in a tunnel establishment operation implemented in accordance with said at least one instruction, wherein said at least one instruction is an instruction to send a third messages, said third message including the intermediate node downstream address that was dynamically allocated at the downstream node and an intermediate node upstream address which was generated at the intermediate node.

14. An upstream node for use in a communications system including a first network address domain, a second network address domain, and an intermediate node including first and second interfaces, said first interface having a first network address routable in the first network address domain, said second interface having a second network address routable in said second network address domain, said first and second network address domains being different, said system further including a downstream node and an upstream node, said downstream node having an interface and a network address in the first network address domain, said upstream node having an interface and a network address in the second network address domain, the upstream node comprising a processor configured to:
- control said upstream node to process a second message received from the intermediate node, the second message including a second message body and a second header, said second message body including at least one instruction from said downstream node and said second network address corresponding to said second interface, said second header including a destination address corresponding to said upstream node, said at least one instruction having been received by said intermediate node in a first message from said downstream node, and said at least one instruction being an instruction for invoking a process between the upstream node and the intermediate node, wherein said second message includes an intermediate node downstream address that was dynamically allocated at the downstream node; and
  
  control said upstream node to use said second network address in a tunnel establishment operation implemented in accordance with said at least one instruction, wherein said at least one instruction is an instruction to send a third message, said third message including the intermediate node downstream address that was dynamically allocated at the downstream node and an intermediate node upstream address which was generated at the intermediate node.

Specification

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Litigation Campaign Assessment

Current Assignee
Qualcomm, Inc.
Original Assignee
Qualcomm, Inc.
Inventors
O'Neill, Alan
Primary Examiner(s)
Mesfin, Yemane
Assistant Examiner(s)
CHOUDHRY, SAMINA F

Application Number

US12/099,026
Publication Number

US 20080240033A1
Time in Patent Office

2,017 Days
Field of Search

None
US Class Current

370/349
CPC Class Codes

H04L 61/2503   Translation of Internet pro...

H04W 8/065   involving selection of the ...

H04W 8/08   Mobility data transfer

H04W 8/085   involving hierarchical orga...

H04W 8/26   Network addressing or numbe...

H04W 80/04   Network layer protocols, e....

H04W 88/16   Gateway arrangements

Support of disparate addressing plans and dynamic HA address allocation in mobile IP

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

122 Citations

14 Claims

Specification

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Support of disparate addressing plans and dynamic HA address allocation in mobile IP

First Claim

3 Assignments

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

122 Citations

14 Claims

Specification

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Solutions

Use Cases

Quick Links