METHOD AND APPARATUS FOR SELECTIVE RECOVERY FROM BRANCH ISOLATION IN VERY LARGE VOIP NETWORKS

Information

  • Patent Application
  • 20090122791
  • Publication Number
    20090122791
  • Date Filed
    November 13, 2008
    16 years ago
  • Date Published
    May 14, 2009
    15 years ago
Abstract
A digital telecommunications system, a method of reconnecting branches to a softswitch in a communications network and a program product for reconnecting branches to a softswitch in a communications network. A softswitch manages communications between devices at network endpoints, e.g., session initiation protocol (SIP) devices. When a branch is disconnected from the softswitch, the softswitch manages reconnects, prioritizing reconnects when multiple branches request reconnecting.
Description
BACKGROUND OF THE INVENTION

1. Field of the Invention


The present invention is related to connectivity recovery in digital communications and telecommunications systems and networks and more particularly, to managing the system/network load during connectivity in digital communications and telecommunications systems and networks.


2. Background Description


State of the art telecommunication systems are digital and, frequently, use Internet Protocol (IP) based communications. A typical such system may include softswitch located in a data center that can provide communication services to many branches or sites. The cites may be each connected to the softswitch through a high speed data connection, e.g., through a typical broadband network connection. Typically when a branch looses connectivity to the data center, a local proxy can provide a reduced set of communication features for the branch. Later, when the communications are restored between the branch and the data center, it may be necessary for branch devices to update registrations and subscriptions (e.g. to message summary events and/or line state events). Updates for a single branch may not degrade network performance. If, however, a large number of branches simultaneously recover connectivity to the data center, the simultaneous subscription and registration requests may flood the data center, forcing it into an overload state. Consequently, system communications may slow or even be non-existent during such an overload.


Thus, there is a need for preventing overloads in telecommunications network softswitches when a number of branches simultaneously recover connectivity to the softswitch.


SUMMARY OF THE INVENTION

It is a purpose of the invention to reduce overloads in telecommunications network softswitches;


It is another purpose of the invention to minimize the occurrence of overloads in telecommunications network softswitches when a number of branches simultaneously recover connectivity to the softswitch;


It is yet another purpose of the invention to prioritize connectivity recovery for a telecommunications network to minimize the occurrence of overloads in a network softswitch when a number of branches simultaneously recover connectivity to the softswitch;


It is yet another purpose of the invention to prioritize connectivity recovery for a telecommunications network to minimize the occurrence of overloads in a network softswitch when a number of branches simultaneously recover connectivity to the softswitch, giving priority to branches of higher importance or for branches with larger numbers of users.


The present invention relates to a digital telecommunications system, a method of reconnecting branches to a softswitch in a communications network and a program product for reconnecting branches to a softswitch in a communications network. A softswitch manages communications between devices at network endpoints, e.g., session initiation protocol (SIP) devices. When a branch is disconnected from the softswitch, the softswitch manages reconnects, prioritizing reconnects when multiple branches request reconnecting.





BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing and other objects, aspects and advantages will be better understood from the following detailed description of a preferred embodiment of the invention with reference to the drawings, in which:



FIG. 1 shows a simple example of a preferred system/network according to a preferred embodiment of the present invention;



FIG. 2 shows an example of a suitable SIP header;



FIG. 3 shows an example of steps 140 in determining the softswitch 118 reply to each proxy.





DESCRIPTION OF PREFERRED EMBODIMENTS

Turning now to the drawings and more particularly, FIG. 1 shows a simple example of a preferred system/network, e.g., an Internet Protocol (IP) communications system/digital call capable network 100 according to a preferred embodiment of the present invention. In this example, the system includes 3 branches 102, 104, 106, each with devices 108 at End Points (EP). Preferably, the EP devices 108 are typical digital telephony devices (e.g., VoIP phones) and Multimedia Terminal Adapters (MTA), e.g., keysets or session initiation protocol (SIP) phones. Since a network device defines an EP, each EP and a device(s) at the EP are referred to herein interchangeably. The branches 102, 104, 106 are networked over a suitable data network 110, e.g., a broadband network, wide area network (WAN), or local area network (LAN). Trunks 112, 114, 116 connect a respective branch 102, 104, 106 to the data network 110. A preferred softswitch 118, e.g., in a general purpose computer, PC or server, in main office 120 manages network communications and is connected to the branches 102, 104, 106 through the data network 110. Each branch 102, 104, 106 includes a survivable proxy 122, 124, 126 that provides the respective branch 102, 104, 106 with a reduced set of communication features, in the event that connection to the softswitch 118 is lost or if, for example the softswitch fails.


It is understood that this network is an example only and not intended as a limitation. The present invention has application to any digital telecommunications system or network with multiple branches connected to a softswitch providing communication services. Further, each branch may have any suitable number of endpoints with endpoint devices. However, for purposes of this simple example, one branch 102 (Branch A) may be a headquarters site with 6 users (each at one of 6 devices 108), branch 104 (Branch B) is a remote office with 4 users (each at one of 4 devices 108), and branch 106 (Branch C) is regional site with 5 users (each at one of 5 devices 108). For this example it is assumed that each device sends one subscription request for each device to register with the softswitch 118. The softswitch 118 of this example has the capacity to process 2 requests per second and to queue up to 12 requests.


Even with a network error that isolates all branches from the data center, each survivability proxy 122, 124, 126 can still provide basic services in the respective branches 102, 104, 106. While the branches 102, 104, 106 are isolated, each proxy 122, 124, 126 polls the softswitch 118 with SIP OPTIONS messages, trying to re-establish connectivity with the softswitch 118. When the softswitch 118 responds to the OPTIONS message with a positive acknowledgement, the respective proxy 122, 124, 126 returns to normal mode and routes subscriptions and registrations for state synchronization to the softswitch 118. According to a preferred embodiment of the present invention, the softswitch 118 avoids receiving subscription request for all devices in all branches simultaneously by selectively acknowledging the OPTIONS message if is contains specific information, e.g., in a SIP header.



FIG. 2 shows an example of a suitable SIP header 130. In particular, acknowledgement may be given priority based on proxy state 132, branch priority 134 and the number 136 of branch users. The proxy state 132, for example, may be normal mode, backup mode or survivable mode. Branch priority 134 may be a value Q between 0 and 1. The number 136 of branch users may be the number of registered users in the branch 102, 104, 106.



FIG. 3 shows an example of steps 140 in determining the softswitch 118 reply to each proxy 122, 124, 126. First, in step 142, the softswitch 118 determines if a request indicates that the particular proxy is in normal mode 122, 124, 126. If so, then in step 144 the softswitch 118 positively acknowledges the message to keep the proxy 122, 124, 126 from entering survivable mode. Otherwise, in step 146, the softswitch 118 determines if the request indicates that the proxy 122, 124, 126 is in survivable mode. If so, then in step 148 the softswitch 118 checks whether the transaction queue size (Q)+the number expected messages (for this example: registration count*number of subscriptions per device) is below a high level watermark (WM), e.g., 10. This has the form:





(registration-count*messages-per-device)+transaction-queue-size<high-level-watermark.


If so, then in step 144 the softswitch 118 acknowledges the message. Otherwise, in step 150 the softswitch 118 determines whether more then one message is in the queue. If not, in step 152, the softswitch 118 processes the sole message. Otherwise, in step 154, the softswitch 118 selects the message with the highest Q value and in step 152 processes it first.


Advantageously, the present invention prevents overloads in the telecommunications system softswitch when a number of branches simultaneously recover connectivity to the softswitch. Further, by prioritize connectivity recovery for a telecommunications network the occurrence of overloads in a network softswitch are minimized even when a large number of branches simultaneously recover connectivity to the softswitch. The softswitch efficiently manages recovery, giving priority to branches of higher importance or for branches with larger numbers of users.


While the invention has been described in terms of preferred embodiments, those skilled in the art will recognize that the invention can be practiced with modification within the spirit and scope of the appended claims. It is intended that all such variations and modifications fall within the scope of the appended claims. Examples and drawings are, accordingly, to be regarded as illustrative rather than restrictive.

Claims
  • 1. A digital telecommunications system comprising: a data network;a plurality of branch locations connecting to each other over said data network, each branch location comprising: one or more communications devices, each at one of a plurality of communications network endpoints, anda survivable proxy selectively providing a communication feature subset for communications devices at the respective branch; anda softswitch managing communications at said plurality of branches, said survivable proxy providing said communication feature subset whenever said softswitch is unavailable and initiating a reconnect when reconnected to said softswitch, said softswitch prioritizing branch reconnects for multiple reconnecting branches.
  • 2. A digital telecommunications system as in claim 1, wherein said digital telecommunications system is a Voice over Internet Protocol (VoIP) system.
  • 3. A VoIP communications system as in claim 1, wherein said softswitch prioritizes responsive to proxy state, branch priority and the number of branch users.
  • 4. A VoIP communications system as in claim 1, wherein said VoIP communications devices are session initiation protocol (SIP) devices, each said proxy sending a SIP message to initiate a reconnect to said softswitch.
  • 5. A VoIP communications system as in claim 12, wherein said softswitch priorities responsive to a SIP header in said SIP message.
  • 5. A method of reconnecting branches to a softswitch in a communications network, said method comprising the steps of: a) signaling a request to reconnect a disconnected branch to a network softswitch;b) determining the proxy mode indicated for a branch signaling said request; andc) selectively acknowledging said request responsive to said determination.
  • 6. A method of reconnecting branches as in claim 5, wherein said request is acknowledged whenever said proxy mode is normal mode or survival mode, otherwise said method further comprising: d) determining whether transaction queue size and the number expected messages is below a high level watermark; ande) selectively acknowledging said request responsive to said determination.
  • 6. A method of reconnecting branches as in claim 5, wherein said request is acknowledged whenever said transaction queue size and the number expected messages is determined below said high level watermark, otherwise said method further comprising: f) determining whether multiple branches are requesting;g) selecting a requesting branch; andh) processing the respected request message.
  • 7. A method of reconnecting branches as in claim 6, wherein whenever multiple branches are requesting, the branch having the highest transaction queue size is selected.
  • 8. A computer program product for reconnecting branches to a softswitch in a communications network, said computer program product comprising a computer usable medium having computer readable program code stored thereon, said computer readable program code comprising: computer readable program code means for receiving requests to reconnect a disconnected branch to a network softswitch;computer readable program code means for determining the proxy mode indicated for a branch signaling said request;computer readable program code means for determining whether transaction queue size and the number expected messages is below a high level watermark; andcomputer readable program code means for acknowledging said request responsive to said determination, said request being acknowledged whenever said proxy mode is normal mode or survival mode, and whenever said transaction queue size and the number expected messages is determined below said high level watermark.
  • 9. A computer program product as in claim 6 further comprising: computer readable program code means for determining whether multiple branches are requesting;computer readable program code means for selecting a requesting branch; andcomputer readable program code means for processing the respected request message.
  • 10. A computer program product as in claim 9, wherein whenever multiple branches are requesting, computer readable program code means for selecting selects the branch having the highest transaction queue size.
CROSS REFERENCE TO RELATED APPLICATION

The present invention is a continuation of Provisional U.S. Patent Application No. 61/002,913, entitled “METHOD FOR TAGGING SIP CONTACT HEADERS WHILE PRESERVING THE CONTACT HEADER FORMAT TOWARDS SOFTSWITCHES” to Johannes Ruetschi et al., filed Nov. 13, 2007 assigned to the assignee of the present invention and is incorporated herein by reference.

Provisional Applications (1)
Number Date Country
61002913 Nov 2007 US