Nov 2009 to 2000 Inventory Associate / Support ManagerD.I.G Architecture Terre Haute, IN Nov 2006 to Dec 2008 CAD DesignerWal-Mart Avon, IN Dec 2003 to Nov 2006 Overnight Support ManagerCinergy/PSI Plainfield, IN Jan 2001 to Apr 2003 Real Estate SpecialistAnalytical Surveys Inc Indianapolis, IN Jun 1998 to Jan 2001 Digital Services SpecialistPizza Hut Indianapolis, IN May 1993 to Jun 1998 Shift Manager / Delivery driverBest Homes Indianapolis, IN Apr 1997 to Nov 1997 Draftsman
Education:
Ivy Tech State College Indianapolis, IN Aug 1993 to Aug 2000 AAS in Design TechnologyGeorge Washington High School Indianapolis, IN Aug 1989 to Jun 1993 High School Diploma in Math & Art
Abhijeet V. Chavan - Carmel IN James H. Logsdon - Kokomo IN Dan W. Chilcott - Greentown IN Han-Sheng S. Lee - Bloomfield Hills MI David K. Lambert - Sterling Heights MI Timothy A. Vas - Kokomo IN
Assignee:
Delphi Technologies, Inc. - Troy MI
International Classification:
G01K 702
US Classification:
374179, 374163, 374183, 374121, 136213
Abstract:
An integrated sensor comprising a thermopile transducer and signal processing circuitry that are combined on a single semiconductor substrate, such that the transducer output signal is sampled in close vicinity by the processing circuitry. The sensor comprises a frame formed of a semiconductor material that is not heavily doped, and with which a diaphragm is supported. The diaphragm has a first surface for receiving thermal (e. g. , infrared) radiation, and comprises multiple layers that include a sensing layer containing at least a pair of interlaced thermopiles. Each thermopile comprises a sequence of thermocouples, each thermocouple comprising dissimilar electrically-resistive materials that define hot junctions located on the diaphragm and cold junctions located on the frame. The signal processing circuitry is located on the frame and electrically interconnected with the thermopiles. The thermopiles are interlaced so that the output of one of the thermopiles increases with increasing temperature difference between the hot and cold junctions thereof, while the output of the second thermopile decreases with increasing temperature difference between its hot and cold junctions.
Common Control Of An Electronic Multi-Pod Conferencing System
Tracy A. Bathurst - South Jordan UT, US David Lambert - South Jordan UT, US Wayne Whiteley - Lindon UT, US Carrie L. Owen - Layton UT, US
Assignee:
ClearOne Communications, Inc. - Salt Lake City UT
International Classification:
H04M 3/42
US Classification:
37920201, 37920401, 348 1409, 381119
Abstract:
This disclosure describes a method of controlling a multi-pod conferencing system for local conference participants to communicate with remote conference participants. This method includes providing a plurality of pods to local conference participants wherein an individual pod connects to one or more of the plurality of pods through a data communication means. The individual pods further include pod processor means. The pod processor means couples to an input device and a display. The method further includes providing a base unit that couples to the plurality of pods through the data communication means. The base unit further couples to a carrier medium, where the base unit further includes base controller means. The base controller means couples to the converting means. Additionally, the method further includes receiving command input at an individual pod from the local conference participant, updating the display at the individual pod in response to the command input, and distributing the command input through said data communication means to other plurality of pods and the base controller, where the plurality of pods and the base controller interpret the command input and change their operational state if necessary in response to the command input.
Disclosed herein are portable teleconferencing products that implement a doubletalk detector in a low frequency range or in a frequency range commensurate with the frequencies through which sound may be efficiently transferred between a speaker and a microphone through an enclosure. Also disclosed herein are teleconferencing systems that implement a secondary doubletalk detector, a non-presumptive doubletalk detector, a confirmatory doubletalk detector, and/or a false doubletalk detector, whereby echo cancellation coefficients may be better adapted after echo path changing events through the use of accelerated coefficient adaptation or half-duplex operation until adaptation is restored. Further disclosed herein are teleconferencing products that include more than one port for communicating with distant parties or a single party and a local source of audio material, whereby one distant party is prevented from being transmitted to it private audio from another party or another audio signal while permitting a local participant to hear the private audio. Detailed information on various example embodiments of the inventions are provided in the Detailed Description below, and the inventions are defined by the appended claims.
Systems And Methods For Managing The Gating Of Microphones In A Multi-Pod Conference System
Tracy A. Bathurst - South Jordan UT, US David Lambert - South Jordan UT, US Wayne Whiteley - Lindon UT, US Carrie L. Owen - Layton UT, US
Assignee:
Clearone Communications, Inc. - Salt Lake City UT
International Classification:
H04M 3/42 H04R 3/00
US Classification:
37920201, 381 92
Abstract:
This disclosure describes a method of gating a multi-pod conferencing system for local conference participants to communicate with remote conference participants that includes providing a plurality of pods where an individual pod connects to one or more plurality of pods through a data communication means. The individual pods further include: pod processor means, digital to analog converter means, analog to digital converting means, virtual microphone means, pod echo cancellation means, and microphone gating means. The disclosed method further includes providing a base unit that uses data communication means and base controller means. The disclosed method further includes the computed values of the pod gating means being distributed to other pods to gate the pods on and or off.
Portable Speakerphone Device And Subsystem Utilizing False Doubletalk Detection
Disclosed herein are portable teleconferencing products that implement a doubletalk detector in a low frequency range or in a frequency range commensurate with the frequencies through which sound may be efficiently transferred between a speaker and a microphone through an enclosure. Also disclosed herein are teleconferencing systems that implement a secondary doubletalk detector, a non-presumptive doubletalk detector, a confirmatory doubletalk detector, and/or a false doubletalk detector, whereby echo cancellation coefficients may be better adapted after echo path changing events through the use of accelerated coefficient adaptation or half-duplex operation until adaptation is restored. Further disclosed herein are teleconferencing products that include more than one port for communicating with distant parties or a single party and a local source of audio material, whereby one distant party is prevented from being transmitted to it private audio from another party or another audio signal while permitting a local participant to hear the private audio. Detailed information on various example embodiments of the inventions are provided in the Detailed Description below, and the inventions are defined by the appended claims.
Probabilistic Ringing Feedback Detector With Frequency Identification Enhancement
Ashutosh Pandey - Murray UT, US David Lambert - South Jordan UT, US
Assignee:
Clearone Communications, Inc. - Salt Lake City UT
International Classification:
H04B 15/00
US Classification:
381 93, 381 942, 381 943, 381 944
Abstract:
Disclosed herein are detectors of audio ringing feedback, that is decaying feedback with a gain of less than one, those detectors utilizing a repeated gain measurement that applied to a range of gain values characteristic of ringing-type feedback. Those gain measurements, while in the range, increase a probability measurement of feedback. When the probability of feedback reaches a threshold, a detection of feedback is made and feedback countermeasures, such as the application of a notch filter, may be applied. Optionally, the audio gain around likely frequencies of feedback may be enhanced for a time to increase the resolution of identification of a feedback frequency, which may be identified through an interpolative method. Repeated gain measurements may also identify building-type feedback. A ringing detector may include more than one range of detection, for example for building, strong-ringing and weak-ringing feedback.
Tracy A. Bathurst - South Jordan UT, US David Lambert - South Jordan UT, US Wayne Whiteley - Lindon UT, US Carrie L. Owen - Layton UT, US
Assignee:
Clearone Communications, Inc. - Salt Lake City UT
International Classification:
H04M 3/42
US Classification:
37920201, 348 141
Abstract:
This disclosure describes a multi-pod conferencing system for local conference participants to communicate with remote conference participants that includes a plurality of pods for local conference participants where an individual pod connects to one or more plurality of pods through a data communication means. The individual pods further include the following: pod processor means; an input device and a display; a loudspeaker that couples to a digital to analog converter; 3 physical bi-polar microphones positioned at 120 degree intervals in the horizontal resting plane of the pod, each individual physical microphone connects to a pair of audio ports with each audio port being equal distance from the loudspeaker, the physical microphones couple to analog to digital converting mean and pod processor means; 3 virtual microphones; pod echo cancellation means; and microphone gating means. The disclosed system further includes a base unit that couples to the plurality of pods through the data communication means. The base unit further includes base controller means, where the base controller means couples to the converting means.
Portable Speakerphone Device With Selective Mixing
Disclosed herein are portable teleconferencing products that implement a doubletalk detector in a low frequency range or in a frequency range commensurate with the frequencies through which sound may be efficiently transferred between a speaker and a microphone through an enclosure. Also disclosed herein are teleconferencing systems that implement a secondary doubletalk detector, a non-presumptive doubletalk detector, a confirmatory doubletalk detector, and/or a false doubletalk detector, whereby echo cancellation coefficients may be better adapted after echo path changing events through the use of accelerated coefficient adaptation or half-duplex operation until adaptation is restored. Further disclosed herein are teleconferencing products that include more than one port for communicating with distant parties or a single party and a local source of audio material, whereby one distant party is prevented from being transmitted to it private audio from another party or another audio signal while permitting a local participant to hear the private audio. Detailed information on various example embodiments of the inventions are provided in the Detailed Description below, and the inventions are defined by the appended claims.
Government Contracts Bid Protests Claims Small Business Programs
ISLN:
905665878
Admitted:
1955
University:
Trinity College, A.B., 1948
Law School:
Cornell University, J.D., 1951
David Lambert - Lawyer
Name / Title
Company / Classification
Phones & Addresses
David Lambert Product Manager-vpn/remote Access Technologies
Oracle America, Inc. Information Retrieval Services
1001 Sunset Blvd, Rocklin, CA 95765
David Lambert Partner
ADR Environmental Group Inc Medical Laboratories
1425 River Park Dr Ste 201, Sacramento, CA 95815
David Lambert Vice President
First Presbyterian CH Ogden Religious Organizations
880 28Th St, Ogden, UT 84403
David Lambert Executive
American Red Cross Individual and Family Social Services
2955 Harrison Blvd Ste 204, Ogden, UT 84403
David Lambert Manager
Pizza Hut Eating Places
4789 Harrison Blvd, Ogden, UT 84403 Website: pizzahut.com
David L. Lambert Principal
David Lambert & Assoc LLC Business Services
221 Carter St, Mooresville, IN 46158
David Lambert Principal
Captain Delta Daves Boat Svc Services-Misc
199 Cinnamon Dr, Galt, CA 95632 PO Box 485, Galt, CA 95632
David Lambert Of The Advisory Council
WINROCK INTERNATIONAL INSTITUTE FOR AGRICULTURAL DEVELOPMENT Noncommercial Research Organization · Business Associations · Noncommercial Research Organizations · Nonresidential Building Operators · Associations
2101 Riverfront Dr, Little Rock, AR 72202 980 9 St, Sacramento, CA 95814 5012803000, 5012803092, 5012803090, 5017275435