Eric J Nylander, 574187 W 98Th Way, Westminster, CO 80031

6646997, Nov 11, 2003

Oct 25, 1999

09/426684

Warren E. Baxley - Arvada CO
Gregory A. Clemson - Superior CO
William P. Ernstrom - Golden CO
Eric J. Nylander - Morrison CO
Thomas W. Stark - Englewood CO

Voyant Technologies, Inc. - Westminster CO

H04L 1216

370260, 370261, 37920201, 709204

A method of large-scale fault-tolerant audio conferencing in an audio conferencing system using a purely packet-switched network. An endpoint places a call to a conference gatekeeper indicating an audio conference. The conference gatekeeper determines whether the call contains sufficient information to establish the audio conference. If there is insufficient information, the endpoint is connected to an IVR server that obtains sufficient information from the endpoint. Either way, a CACS selects an MCU hosting or that will host the audio conference. The CACS then responds to the endpoint with routing instructions indicating the selected MCU and the endpoint connects or transfers to the selected MCU. The MCU mixes input from all endpoints in the audio conference to form a voice stream, which is then returned to each endpoint in the audio conference. Audio conference participants can dial-out from the MCU to bring additional participants into the audio conference.

6657975, Dec 2, 2003

Oct 25, 1999

09/426382

Warren E. Baxley - Arvada CO
Gregory A. Clemson - Superior CO
William P. Ernstrom - Golden CO
Eric J. Nylander - Morrison CO
Thomas W. Stark - Englewood CO

Voyant Technologies, Inc. - Westminter CO

H04L 1216

370260, 370352, 370401, 370466, 709204, 37920201

An audio conferencing method in a hybrid network. Input from a plurality of endpoints connected to an audio conference in the hybrid network is received in a media gateway. The media gateway converts the input to an MCU-usable format and selects input based on predetermined selection criteria. An MCU mixes the selected input with other selected input to form an output stream and a sum stream which are matched with the endpoints in the audio conference. The media gateway converts the output stream and the sum stream to an endpoint-compatible format which is returned to the endpoints in the audio conference. Audio conference participants can dial-out from the MCU to bring additional participants into the audio conference. Once established in the hybrid network, the audio conference supports full service audio conferencing. In addition, dynamic routing permits an operator to service multiple MCUs, and an audio conference participant and/or an entire audio conference to be moved between MCUs.

6879565, Apr 12, 2005

Oct 29, 2003

10/696376

Warren E. Baxley - Arvada CO, US
Gregory A. Clemson - Superior CO, US
William P. Ernstrom - Golden CO, US
Eric J. Nylander - Morrison CO, US
Thomas W. Stark - Englewood CO, US

Polycom, Inc. - Pleasanton CA

H04L012/16

370261, 370352, 370401, 379158, 37920201, 709229, 709231

An audio conferencing method in a hybrid network. Input from a plurality of endpoints connected to an audio conference in the hybrid network is received in a media gateway. The media gateway converts the input to an MCU-usable format and selects input based on predetermined selection criteria. An MCU mixes the selected input with other selected input to form an output stream and a sum stream which are matched with the endpoints in the audio conference. The media gateway converts the output stream and the sum stream to an endpoint-compatible format which is returned to the endpoints in the audio conference. Audio conference participants can dial-out from the MCU to bring additional participants into the audio conference. Once established in the hybrid network, the audio conference supports full service audio conferencing. In addition, dynamic routing permits an operator to service multiple MCUs, and an audio conference participant and/or an entire audio conference to be moved between MCUs.

7054933, May 30, 2006

Mar 19, 2001

09/812971

Warren Edward Baxley - Arvada CO, US
Jeffrey Charles Adams - Lafayette CO, US
Eric Jay Nylander - Morrison CO, US
Douglas Earl Harbert - Denver CO, US

Polycom, Inc. - Pleasanton CA

G06F 15/173

709226, 709222, 709227, 370260

A method for dynamically allocating MCU resources during a multipoint network event such as a conference call. The method determines the number of MCU resources to allocate for the start of the multipoint network event and then at each of a plurality of modeling intervals during the multipoint event adjusts the number of allocated MCU resources based upon actual inbound users. Self-tuning of the allocation of MCU resources for multipoint events occurs in advance of use by providing a look ahead allocation of resources based on what is likely to be needed in the future for a conferencing event. The number of multipoint events occurring within a tuning interval are counted. The number of MCU resources actually utilized during each multipoint event are accumulated and then a probability value is determined for future use of MCU resources for an upcoming multipoint event.

2004008, May 6, 2004

Oct 30, 2003

10/697810

Warren Baxley - Arvada CO, US
Gregory Clemson - Superior CO, US
William Ernstrom - Golden CO, US
Eric Nylander - Morrison CO, US
Thomas Stark - Englewood CO, US

H04L012/16

370/260000

A method of large-scale fault-tolerant audio conferencing in an audio conferencing system using a purely packet-switched network. An endpoint places a call to a conference gatekeeper indicating an audio conference. The conference gatekeeper determines whether the call contains sufficient information to establish the audio conference. If there is insufficient information, the endpoint is connected to an IVR server that obtains sufficient information from the endpoint. Either way, a CACS selects an MCU hosting or that will host the audio conference. The CACS then responds to the endpoint with routing instructions indicating the selected MCU and the endpoint connects or transfers to the selected MCU. The MCU mixes input from all endpoints in the audio conference to form a voice stream, which is then returned to each endpoint in the audio conference. Audio conference participants can dial-out from the MCU to bring additional participants into the audio conference. Once established, the audio conference supports full service audio conferencing. In addition, dynamic routing permits an operator to service multiple MCUs, and an audio conference participant and/or an entire audio conference to be moved between MCUs. The audio conference can also be broadcast from a streaming protocol server to passive participants.

6181786, Jan 30, 2001

Aug 3, 1999

9/366355

Donald Francis Detampel - Westminster CO
Ronald D. Phillips - Golden CO
Thomas Edward Yackey - Broomfield CO
Gregory Wayne Selig - Greenbay WI
Eric Jay Nylander - Morrison CO
Kevin Dale Barnes - Thornton CO

Voyant Technologies, Inc. - Westminster CO

H04M 356
H04M 700
H04L 1218

379205

An on-demand teleconferencing system and method for setting up an on-demand conference call in a telecommunications system having the Advanced Information Network (AIN) architecture with system signaling the number 7 (SS7) and a Public Switched Telephone Network (PSTN). A subscriber is assigned an on-demand conference call number. When that number is dialed into the PSTN, it is identified by the PSTN that the dialed number requires handling by the SS7. The SS7 links the dialed number to a conference allocation and control system (CACS) which is connected to a plurality of scalable bridge servers. The CACS selects bridge servers available to handle the conference call and based upon a selection criteria such as a peak load sets up the on-demand conference call in one of the selected bridge servers.

6330321, Dec 11, 2001

Jan 29, 2001

9/772590

Donald Francis Detampel - Westminster CO
Ronald D. Phillips - Golden CO
Thomas Edward Yackey - Broomfield CO
Gregory Wayne Selig - Greenbay WI
Eric Jay Nylander - Morrison CO
Kevin Dale Barnes - Thornton CO

Voyant Technologies, Inc. - Westminster CO

H04M 356
H04M 700
H04L 1218

37920501

An on-demand teleconferencing system and method for setting up an on-demand conference call in a telecommunications system having the Advanced Information Network (AIN) architecture with system signaling the number 7 (SS7) and a Public Switched Telephone Network (PSTN). A subscriber is assigned an on-demand conference call number. When that number is dialed into the PSTN, it is identified by the PSTN that the dialed number requires handling by the SS7. The SS7 links the dialed number to a conference allocation and control system (CACS) which is connected to a plurality of scalable bridge servers. The CACS selects bridge servers available to handle the conference call and based upon a selection criteria such as a peak load sets up the on-demand conference call in one of the selected bridge servers.

5995608, Nov 30, 1999

Mar 28, 1997

8/825477

Donald Francis Detampel - Westminster CO
Ronald D. Phillips - Golden CO
Thomas Edward Yackey - Broomfield CO
Gregory Wayne Selig - Greenbay WI
Eric Jay Nylander - Morrison CO
Kevin Dale Barnes - Thornton CO

Confertech Systems Inc. - Westminster CO

H04M 356
H04M 700

379205

An on-demand teleconferencing system and method for setting up an on-demand conference call in a telecommunications system having the Advanced Information Network (AIN) architecture with system signaling the number 7 (SS7) and a Public Switched Telephone Network (PSTN). A subscriber is assigned an on-demand conference call number. When that number is dialed into the PSTN, it is identified by the PSTN that the dialed number requires handling by the SS7. The SS7 links the dialed number to a conference allocation and control system (CACS) which is connected to a plurality of scalable bridge servers. The CACS selects bridge servers available to handle the conference call and based upon a selection criteria such as a peak load sets up the on-demand conference call in one of the selected bridge servers.