Session initiation protocol (SIP) message incorporating a multi-purpose internet mail extension (MIME) media type for describing the content and format of information included in the SIP message

Information

  • Patent Grant
  • 8634412
  • Patent Number
    8,634,412
  • Date Filed
    Wednesday, November 28, 2012
    11 years ago
  • Date Issued
    Tuesday, January 21, 2014
    10 years ago
Abstract
A system and method for processing a plurality of requests for multi-media services received at a call control element (CCE) defined on the system from a plurality of IP-communication devices. The system includes at least one Network Routing Element, a Service Broker, a media sever, a plurality of application servers and a plurality of border elements, all of which are coupled to the CCE. The CCE is adapted to receive requests for multi-media services and to generate subsequent requests for the multi-media services, which are communicated to the SB for processing. The subsequent requests can each include a Session Initiation Protocol (SIP) message including a message identifier portion having at least a first predetermined information field and a second predetermined information field. The message identifier portion of the SIP message declares the content and format of the SIP message to a recipient device defined on the system.
Description
FIELD OF THE INVENTION

The present invention relates generally to a SIP message including a MIME media type field and MIME media subtype field and, more specifically, to SIP message including a MIME media type field and MIME media subtype field that describes the content and format of information included in the SIP message, which can be communicated between core network elements defined on a multi-media service provider system.


BACKGROUND

Service providers, such as AT&T, can receive a number of requests from various users of communication devices for any one or more of a plurality of multi-media service offerings. These requests may be directed to a predetermined application server of a plurality of application servers associated with the service provider, which is adapted to provide feature processing for the requested multi-media service. As Service providers continue to add multi-media service offerings and corresponding application servers for providing feature processing for each of the requested multi-media services, there is a need for improving communications between core network elements defined on the service provider system to permit more efficient and accurate processing of user requests for multi-media services.


SUMMARY OF THE INVENTION

A system for processing multi-media service requests to form a multi-media communication path between at least a first communication device and at least a second communication device of a plurality of communication devices. The system includes a call control element that is adapted to receive at least a first request message for at least one multi-media service from the first communication device. The call control element is further adapted to process the first request message to generate a second request message for the at least one multi-media service. The second request includes a message identifier portion, which has at least a first predetermined information field and a second predetermined information field. The message identifier portion of the second request message enables a recipient network element to identify the format and content of the second request message in relation to advanced intelligent services. The recipient network element can include a number of elements included on the system, such as one or more application servers or border elements.


In one aspect, the message identifier portion can include a Content-Type header portion. Further, the first predetermined information field of the Content-Type header portion can include a Multi-Purpose Internet Mail Extension (MIME) Media Type field and the second predetermined information field of the Content-Type header portion can include a MIME Media Subtype field.


In another aspect, the Content-Type header portion can include the parameters: Content-Type: application/vnd.att-advanced-intelligent-services; boundary=“- - att-advanced services - -.” In another aspect, the Content-Type header portion can include the parameters: Content-Type: application/vnd.att-advanced-intelligent-services; charset=US-ASCII; boundary=“- - att-advanced-services - -”.


In another aspect, the MIME Media Type field can include the parameters: application/sdp. Alternatively, the MIME Media Type field can include the parameters: vnd.att-application/advanced-intelligent-features. In one aspect, the MIME Media Subtype field can include the parameters: vnd.att-advanced-intelligent-features.


In another aspect of the present invention, a Session Initiation Protocol (SIP) message is set forth, which includes a Content-Type portion having a MIME Media Type field and a MIME Media Subtype field. The MIME Media Type field declares a data type associated with the SIP message. The MIME Media Subtype field specifies a format for the data type that allows a predetermined recipient network element, which receives the SIP message, to identify the format and content of the SIP message in relation to advanced intelligent services. The SIP message can include at least one of a SIP Redirect message, a SIP INFO message, a SIP UPDATE message or a SIP BYE message.


In another aspect of the present invention, a method of processing multi-media service requests received at a multi-media services provider system is set forth to form a multi-media communication path between at least a first communication device and at least a second communication device of a plurality of communication devices. The method includes receiving at least a first request message for at least one multi-media service at a call control element located on the multi-media services provider system. The first request message is processed at the call control element for generating a second request message for the at least one multi-media service. The second request message includes a message content identifier portion having at least a first predetermined information field and a second predetermined information field.


In one aspect, the method further includes processing the second request message at a service broker element located on the multi-media services provider system to identify a format and content of the second request message. For example, identifying the format and content of the second request message includes identifying advanced intelligent services requested by the second request message.


In another aspect, the method includes receiving the first request message for the at least one multi-media service at an application server located on the multi-media services provider system. The first request message is processed at the application server to identify advanced intelligent services associated with the first request message.


In another aspect, generating the second request message at the call control element, which includes the message content identifier portion, includes generating a Session Initiation Protocol (SIP) INVITE message and including a Content-Type field.





BRIEF DESCRIPTION OF THE DRAWING

The foregoing and other objects of this invention, the various features thereof, as well as the invention itself, can be more fully understood from the following description, when read together with the accompanying drawings in which:



FIG. 1 is an exemplary high-level schematic block diagram of a system for providing multi-media communications between a plurality of communication devices according to the present invention;



FIG. 2 is an expanded schematic block diagram of the system shown in FIG. 1; and



FIG. 3 is a high level flow chart illustrating process steps executable on the system of FIG. 2.





DETAILED DESCRIPTION OF THE INVENTION


FIG. 1 shows one embodiment of a communication network 10 for providing multi-media communications between at least first 22a and second 22b communication devices of a plurality of communication devices, in accordance with the present invention. The communication network 10 includes a multi-media provider system 10a, which is operative to provide a plurality of multi-media services to the first 22a and second 22b communication devices, via respective first 34a and second 34b SIP-enabled IP-Private Branch Exchanges (hereinafter referred to as “PBXs”). It should be understood that the multi-media services provider system 10a is additionally operative to provide a plurality of multi-media services to a plurality of other communication devices not specifically shown herein.


Referring to FIG. 2, in the exemplary embodiment, the multi-media services provider system 10a includes a centrally located Call Control Element 24 (CCE), at least one Media Server (MS) 30, a plurality of Application Servers (ASs) 32a, 32b, 32c (collectively referred to hereinafter as ASs 32a-32b), at least one Network Routing Engine (NRE) 33, at least one Service Broker (SB) 36 and a plurality of Border Elements (BEs) 26a, 26b, 26c, 26d (collectively referred to hereinafter as BEs 26a-26d). The CCE 24 is coupled to the plurality of ASs 32a-32c and to the plurality of BEs 26a-26d. The CCE is further coupled to the MS 30, the NRE 33 and the SB 36. Although not shown, the BEs 26a-26d can also be coupled directly to one or more of the ASs 32a-32b.


In the exemplary embodiment, the BE 26d is coupled to the first PBX 34a and the BE 26b is coupled to the second PBX 34b. Further, the BE 26c is coupled to PBX 34c, via an access gateway 31, and is adapted for operation using an H.323 format. It should be understood that the BEs 26a-26d can be coupled to a plurality of other PBXs (not shown), which are included in other embodiments not specifically shown herein.


In the exemplary embodiment, the first PBX 34a is coupled to the first communication device 22a. Further, the second PBX 34b is similarly coupled to the second communication device 22b.


The CCE 24, for example, can be provided by Lucent Corporation of Murray Hill, N.J. The CCE 24 may be defined as a back-to-back user agent (B2BUA), which operates to receive a plurality of INVITE messages from any one of the plurality of BEs 26a-26d and upon receipt of the plurality of INVITE messages from the BEs 26a-26d, the CCE 24 can initiate an equal plurality of INVITE messages to the SB 36. The CCE 24 is further adapted to receive a plurality of Redirect messages from the SB 36 in response to the plurality of INVITE messages sent to the SB 36 from the CCE 24. When the CCE 24 receives a Redirect message back from the SB 36 in response to an INVITE message and depending on instructions provided by the SB 36 in the Redirect message, the CCE 24 can either send an INVITE message to one or more of the plurality of ASs 32a-32c for feature processing for the call or the CCE 24 can send an INVITE message to the NRE 33 (i.e. feature processing is not required for the call) to bypass the plurality of ASs 32a-32c and set up the call. The CCE 24 is further adapted to maintain the call state between the first 22a and the second 22b communication devices and to generate a call detail record (CDR) based on instructions received from any one or more of the plurality of ASs 32a-32c.


In the exemplary embodiment, the BEs 26a-26d can be provided by Lucent Corporation of Murray Hill, N.J. In one embodiment, the BEs 26a-26d are adapted to use SIP as the signaling protocol for interfacing with the CCE 24. Further BE 26a is adapted to interface to a circuit network (not shown) using an ISDN user port included thereon. The BEs 26b and 26d are adapted to use SIP as the signaling protocol for interfacing with the first 34a and second 34b PBXs. The BE 26c is adapted to use H.323 as the signaling protocol for interfacing with the PBX 34c, via the Access Gateway (AGW) 31. In the exemplary embodiment, the BEs 26a-26d may be thought of as a SIP B2BUA because each of the BEs 26a-26d generates SIP messages as well as receives requests from SIP endpoints, such as the SIP-enabled first 34a and second 34b PBXs, and either processes the requests itself or forwards the requests to the CCE 24 for processing. In another embodiment, the BEs 26a-26d are adapted to use SIP as the signaling protocol for interfacing with the AS 32a-32c when (1) supporting Stimulus Signaling (See: “A Framework for Stimulus Signaling in SIP Using Markup”, J. Rosenberg. IETF draft Apr. 24, 2002, the subject matter of which is herein incorporated by reference in its entirety), or (2) supporting communication for services like Click-to-Dial.


In the exemplary embodiment, the SB 36 can also be provided by Lucent Corporation of Murray Hill, N.J. In one embodiment, the SB 36 acts as the SIP Redirect Server. The SB 36 operates to identify a particular service request, which is included in the INVITE message received at the SB 36 from the CCE 24. The SB further operates to instruct the CCE 24, via a Redirect message, to redirect the call to one or more of the plurality of ASs 32a-32c for service processing. In an embodiment, the SB 36 can identify a particular service requested by the call based on ANI or DN information included in the INVITE message received at the SB 36 from the CCE 24. In addition, the SB 36 may perform call screening based on the Charge Party Station Type (a.k.a. OLI-Originating Line Information) received in the INVITE message at the SB 36.


After the SB 36 determines a primary AS 32a, 32b or 32c for processing a particular call request (as well as a secondary AS 32a, 32b or 32c for processing the particular call request), the SB 36 generates a SIP Redirect “300 Multiple Choice” message and populates the IP address/Port number combinations of the (primary/secondary) AS 32a, 32b or 32c in the Contact headers of the “300 Multiple Choice” message, and sends it to the CCE 24. This approach permits the CCE 24 to query the secondary AS 32a, 32b or 32c in the event that the primary AS 32a, 32b or 32c is overloaded or not available to process the call request.


In the exemplary embodiment, the plurality of ASs 32a-32c can each include a conventional computer server, such as an “NT-Server,” which can be provided by Microsoft of Richmond, Wash. or a “Unix Solaris Server,” which can be provided by Sun Micro Systems of Palo Alto, Calif. The ASs 32a-32c can be programmed with conventional Web-page interface software such as: “Visual Basic,” “Java,” “JavaScript,” “HTML/DHTML,” “C++,” “J+,” “Perl,” or “Perlscript,” and “ASP.” The ASs 32a-32c can each further be programmed with an operating system, Web server software and Web Application software, such as an e-commerce application and computer network interface software. In addition, the ASs 32a-32c can each be programmed with multi-media service software adapted to provide a plurality of multi-media services, as is known, such as “Click-to-Dial,” “Video Conferencing,” “Virtual Private Networks,” and “Toll-Free Calling or 800-Service.”


The ASs 32a-32c can each be further respectively coupled to databases 31a-31c, which each contain a service intelligence layer adapted for providing the plurality of multi-media services described above. The intelligence layer may include customer logic and data, as well as common logic and data that is used by communication devices 22a, 22b, as well as a plurality of other communication devices not specifically shown in FIG. 2.


The NRE 33 also operates as a SIP Redirect Server. The NRE 33 processes INVITE messages received from the CCE 24; performs address resolution based on the routing number returned from the AS 32a-32c and generates a Redirect “300 Multiple Choice” message. The NRE 33 populates Redirect 300 Multiple Choice message with the IP addresses of one or more destination BEs 26a-26d and sends the Redirect 300 Multiple Choice message to the CCE 24. In an embodiment, the NRE 33 can send the Redirect 300 Multiple Choice message to the CCE 24 with a predetermined hierarchical list of IP addresses corresponding to a predetermined hierarchical order of BEs 26a-26d for processing the call. In this arrangement, a highest level BE 26a, 26b, 26c or 26d defined on the list can receive and process the call and if the highest level BE 26a, 26b, 26c or 26d is unable to process the call or has insufficient resources to do so, the call may be redirected by the CCE 24 to a next successive BE 26a, 26b, 26c or 26d defined on the hierarchical list.


The first 22a and second 22b communication devices can include a plurality of SIP-enabled devices, such as telephones, personal computers and IP-Private Branch Exchanges (“PBXs”). In addition, the first 22a and second 22b communication devices can include a plurality of SIP-enabled wireless devices, such as cellular telephones, pagers and personal digital assistants (“PDAs”).


The MS 30, in the exemplary embodiment, is operative to provide a plurality of predetermined announcements to the communication devices 22a, 22b and to collect information from the communication devices 22a, 22b (e.g. caller-entered data). For example, if the caller is required to enter digits or a phrase for a Call Prompter service or SDN (Software Defined Network) service, the MS 30 will play the announcement prompting the caller to enter the required information. The MS 30 also collects the information entered by the caller. The MS 30 plays the announcements to the caller based on the instructions and announcement ID provided in the second INVITE message. In one embodiment, the announcements can include “Service Terminating” announcements or announcements for the caller to enter an authorization code, account code, or “call-prompter” digits.


Referring now to FIG. 3, which shows an exemplary call flow 100 for processing requests for multi-media services that are received at the CCE from the first 22a and/or second 22b communication devices. At step 110, the CCE receives a first request for a multi-media service from the first 22a and/or second 22b communication device. At step 120, upon receiving the first request message for the multi-media service, the CCE generates a second request message including attributes of the first request message, which is communicated to the SB 36 for processing.


In the exemplary embodiment, the second request message includes an INVITE message having a Content-Type header portion. The Content-Type header portion includes a Multi-Purpose Internet Mail Extension (MIME) media type field and a MIME media subtype field. The Content-Type header portion of the INVITE message describes the content and format of the information included in the INVITE message. In an embodiment, the Content-Type header portion includes a MIME media type field having the parameter “application” and a MIME media subtype field having the parameters “vnd.att-advanced-intelligent-features.” These MIME media type and subtype fields provide support for advanced intelligent services such as Toll-Free and Software Defined Network among others. In the exemplary embodiment, the INVITE message can include the following information:


INVITE sip:7324204734@sdnas.att.com;user=phone SIP/2.0


Via: SIP/2.0/UDP ccenj.att.com:5060


Max-Forwards: 20


From: sip:7324204699@att.com


To: <sip:7324204734@att.com>


Call-ID: c39h4563-d119a-2995c 2e322238@att.com


CSeq: 100 INVITE


Accept: application/vnd.att-advanced-intelligent-services


Contact: sip:7324204699@mypc.att.com:5060


Content-Type: application/vnd.att-advanced-intelligent-services;


boundary=“- - att advanced services - -”


Content-Disposition: session


Content-Length: nnn


- - att advanced services


BEID=be.mtnj.1234


CN=7324204699;3;1


L=222


C=0288;0


CPN=7324204699;3;1;0;3


CPST=3


CA=7324204734;3;1


- - att advanced services - -


where, the media type parameters of the INVITE message include:


Media Type name: application


Media Subtype name: advanced-intelligence-features


Required parameters: none


Optional parameters: none


Encoding scheme: US-ASCII


Using the above-described media type parameters of the INVITE message, the Content-Type header portion for handling the advanced service of SDN would be as follows: Content-Type: application/vnd.att-advanced-intelligent-services; charset=US-ASCII; boundary=att-advanced-services. The Content-Type header operates to describe the data contained in the body of the message so that the receiving user-agent, such as the SB 36, can identify the contents of the message body and process the contents appropriately. The MIME media type field declares the general data type while the MIME media subtype field specifies the specific format for the data type. For example, the MIME media type field of the Content-Type header may include “application/sdp,” which identifies the message body as containing information about the Session Description Protocol (SDP), so that an SDP session may be established between the CCE 24 and the SB 36, for example.


Further, the MIME media subtype field of the Content-Type header portion includes the values of “vnd.att-advanced-intelligence-features,” which immediately follows the MIME media type field (e.g application) of the Content-Type header. The MIME media subtype field identifies the format and content of the body portion of the SIP messages as containing parameters for advanced service applications. At step 130, the SB 36 receives the INVITE message having the Content-Type header portion, which includes the MIME media subtype field containing the value of vnd.att-advanced-intelligence-features. Further, the SB 36 processes the INVITE message to generate a Redirect message, which is communicated back to the CCE 24. Based on the call request related parameters received in the message body portion of the INVITE message, the SB 36 executes predetermined operations to generate the Redirect message.


At step 140, the CCE 24 receives and processes the Redirect message by generating a third request message. The third request message can be communicated to one or more of the ASs 32a-32c for multi-media feature processing. After completion of the multi-media feature processing, the one or more ASs 32a-32c can communicate with the NRE 33, via the CCE 24, for forming a communication path between a calling communication device, such as the first communication device 22a, and a called communication device, such as the second communication device 22b. If the CCE 24 determines that multi-media feature processing is not required, the CCE 24 can bypass the ASs 32a-32c and communicate the third request message directly to the NRE 33 for forming the communication path as described above.


It should be understood that the MIME media subtype field of the Content-Type portion, which includes the values of “vnd.att-.advanced-intelligence-features,” may be incorporated into a number of other SIP messages, such as Redirect messages, INFO messages and UPDATE messages. It should be further understood that any one of the SIP messages, which include the MIME media subtype field, can be communicated between any two or more of the network elements defined on the multi-media services provider system 10a.


Information contained in the body portion of the INVITE message (or any other SIP message incorporating the MIME media subtype field) is identified by the MIME media subtype field having the values “vnd.att-advanced-intelligence-features,” and is demarcated by a unique boundary. For example, the Content-Type header defined by the values or parameters: application/vnd.att-advanced-intelligent-services, includes a unique boundary specified as: - -att-advanced-services - -. Information contained in the body portion of the INVITE message (or any other SIP message incorporating the MIME media subtype field), which is identified by the MIME media subtype field having the values or parameters: vnd.att-advanced-intelligence-features, may include sensitive network and/or customer information. Therefore, during processing of the information contained in the body portion of the INVITE message at the CCE 24, for example, the CCE 24 may suppress predetermined parameters of the body portion of the INVITE message for security reasons. For example, if the CCE 24 terminates an INVITE message to a Border Element 26a-26d (as opposed to the SB 36) that connects to a customer premise device, the CCE 24 may suppress parameters like the Charge Number and Calling Party Station Type. Other parameters like the Calling Party Address may also be suppress based on input of the originating user. Note that the security considerations mentioned above are in addition to the encryption and authentication schemes that SIP provides as a standard part of the protocol.


The Content-Type header having the values of “application/vnd.att-advanced-intelligent-services” can be used in a multi-part message body where two or more different Content-Types comprise the body. For example, a SIP INVITE message body may have a Content-Type: application/SDP and a Content-Type: application/vnd.att-advanced-intelligent-services.


While various features of the present invention are described herein in conjunction with exemplary embodiments having various components using a number of protocols, it should be understood that other suitable components and protocols can be used without departing from the present invention.


Having thus described at least one illustrative embodiment of the invention, various alterations, modifications and improvements will readily occur to those skilled in the art. Such alterations, modifications and improvements are intended to be within the scope and spirit of the invention. Accordingly, the foregoing description is by way of example only and is not intended as limiting. The invention's limit is defined only in the following claims and the equivalents thereto. All references and publications cited herein are expressly incorporated herein by reference in their entirety.

Claims
  • 1. A method of processing a first request message, comprising: receiving, by a processor of a call control element, the first request message for a multi-media service;processing, by the processor, the first request message for generating a second request message for the multi-media service and including a content-type header portion having a media type field and a media subtype field, wherein the media type field describes a type of data, and wherein the media subtype field describes a format of the data:sending, by the processor, the second request message to a service broker element;receiving, by the processor, a redirect message from the service broker element;generating, by the processor, a third request message; andsending, by the processor, the third request message to an application server, wherein the redirect message comprises information pertaining to the application server, wherein the information pertaining to the application server comprises a primary application server and a secondary application server.
  • 2. The method of claim 1, further comprising: processing the second request message at the service broker element for identifying a content of the second request message, wherein the identifying the content of the second request message includes identifying an advanced intelligent service requested by the second request message.
  • 3. A non-transitory computer-readable medium storing a plurality of instructions which, when executed by a processor of a call control element, cause the processor to perform operations for processing a first request message, the operations comprising: receiving the first request message for a multi-media service;processing the first request message for generating a second request message for the multi-media service and including a content-type header portion having a media type field and a media subtype field, wherein the media type field describes a type of data, and wherein the media subtype field describes a format of the data:sending the second request message to a service broker element;receiving a redirect message from the service broker element;
  • 4. The non-transitory computer-readable medium of claim 3, wherein the second request message is processed at the service broker element for identifying a content of the second request message, wherein the identifying the content of the second request message includes identifying an advanced intelligent service requested by the second request message.
  • 5. A call control element for processing a first request message, comprising: a processor; anda non-transitory computer-readable medium storing instructions which, when executed by the processor, cause the processor to perform operations, the operations comprising: receiving the first request message for a multi-media service;processing the first request message for generating a second request message for the multi-media service and including a content-type header portion having a media type field and a media subtype field, wherein the media type field describes a type of data, and wherein the media subtype field describes a format of the data:sending the second request message to a service broker element;receiving a redirect message from the service broker element;generating a third request message; and sending the third request message to an application server, wherein the redirect message comprises information pertaining to application server, wherein the information pertaining to the application server comprises a primary application server and a secondary application server.
  • 6. The call control element of claim 5, wherein the second request message is processed at the service broker element for identifying a content of the second request message, wherein the identifying the content of the second request message includes identifying an advanced intelligent service requested by the second request message
Parent Case Info

This application is a continuation of U.S. patent application Ser. No. 13/112,935, filed May 20, 2011, which is currently allowed and is a continuation of U.S. patent application Ser. No. 11/971,024, filed Jan. 8, 2008, (now U.S. Pat. No. 7,948,973), which is a continuation of U.S. patent application Ser. No. 10/324,198, filed Dec. 19, 2002, (now U.S. Pat. No. 7,330,483), all of which are herein incorporated by reference in their entirety.

US Referenced Citations (75)
Number Name Date Kind
4979118 Kheradpir Dec 1990 A
5572583 Wheeler et al. Nov 1996 A
5740430 Rosenberg et al. Apr 1998 A
5864850 Nordman Jan 1999 A
5867494 Krishnaswamy et al. Feb 1999 A
6233234 Curry et al. May 2001 B1
6256389 Dalrymple et al. Jul 2001 B1
6363411 Dugan et al. Mar 2002 B1
6401099 Koppolu et al. Jun 2002 B1
6459774 Ball et al. Oct 2002 B1
6460058 Koppolu et al. Oct 2002 B2
6674725 Nabkel et al. Jan 2004 B2
6694145 Riikonen et al. Feb 2004 B2
6718021 Crockett et al. Apr 2004 B2
6766007 Dermler et al. Jul 2004 B1
6771641 Sollee et al. Aug 2004 B1
6775267 Kung et al. Aug 2004 B1
6778651 Jost et al. Aug 2004 B1
6779030 Dugan et al. Aug 2004 B1
6795430 Ong et al. Sep 2004 B1
6826173 Kung et al. Nov 2004 B1
6826272 Dalrymple et al. Nov 2004 B1
6865681 Nuutinen Mar 2005 B2
6910068 Zintel et al. Jun 2005 B2
6917586 Mauger et al. Jul 2005 B1
6937597 Rosenberg et al. Aug 2005 B1
6967957 Anjum et al. Nov 2005 B2
6976094 Dalrymple et al. Dec 2005 B1
7046778 Martin et al. May 2006 B2
7050423 Schneider et al. May 2006 B2
7050861 Lauzon et al. May 2006 B1
7058068 Gawargy et al. Jun 2006 B2
7069271 Fadel et al. Jun 2006 B1
7114128 Koppolu et al. Sep 2006 B2
7145898 Elliott Dec 2006 B1
7180912 Samarasinghe Feb 2007 B1
7180984 Samarasinghe Feb 2007 B1
7216350 Martin et al. May 2007 B2
7240366 Buch et al. Jul 2007 B2
7254643 Peters et al. Aug 2007 B1
7283516 Ganesan et al. Oct 2007 B1
7296091 Dutta et al. Nov 2007 B1
7307993 Cunetto et al. Dec 2007 B2
7330483 Peters et al. Feb 2008 B1
7411943 Kittredge et al. Aug 2008 B2
7508923 Samaarasinghe Mar 2009 B1
7664102 Samarasinghe Feb 2010 B1
7756121 Parlamas et al. Jul 2010 B2
7817619 Curry et al. Oct 2010 B1
7835344 Bartholomew et al. Nov 2010 B1
7948973 Peters et al. May 2011 B2
7976094 Lesle Jul 2011 B2
8009666 Samarasinghe Aug 2011 B2
8064436 Ganesan et al. Nov 2011 B2
8098651 Ramsayer et al. Jan 2012 B1
8165113 Peters et al. Apr 2012 B1
8363648 Peters et al. Jan 2013 B2
20010020243 Koppolu et al. Sep 2001 A1
20010028654 Anjum et al. Oct 2001 A1
20020082730 Capps et al. Jun 2002 A1
20020103824 Koppolu et al. Aug 2002 A1
20020103898 Moyer et al. Aug 2002 A1
20020141381 Gawargy et al. Oct 2002 A1
20020146005 Gallant et al. Oct 2002 A1
20030123488 Riikonen et al. Jul 2003 A1
20030217109 Ordille et al. Nov 2003 A1
20030217165 Buch et al. Nov 2003 A1
20040019633 Scott et al. Jan 2004 A1
20040028080 Samarasinghe et al. Feb 2004 A1
20080084874 Samarasinghe et al. Apr 2008 A1
20080107130 Peters et al. May 2008 A1
20080267369 Parlamas et al. Oct 2008 A1
20100098069 Samarasinghe Apr 2010 A1
20110216766 Peters et al. Sep 2011 A1
20130091194 Peters et al. Apr 2013 A1
Foreign Referenced Citations (1)
Number Date Country
WO-9955099 Oct 1999 WO
Related Publications (1)
Number Date Country
20130091194 A1 Apr 2013 US
Continuations (3)
Number Date Country
Parent 13112935 May 2011 US
Child 13687601 US
Parent 11971024 Jan 2008 US
Child 13112935 US
Parent 10324198 Dec 2002 US
Child 11971024 US