1
Bret Berner, Timothy C Dunn, Kathleen C Farinas, Michael D Garrison, Ronald T Kurnik, Matthew J Lesho, Russell O Potts, Janet A Tamada, Michael J Tierney: Signal processing for measurement of physiological analysis. Cygnus, Barbara G McClung, Robins & Associates, May 15, 2001: US06233471 (849 worldwide citation)

A method is provided for continually or continuously measuring the concentration of target chemical analytes present in a biological system, and processing analyte-specific signals to obtain a measurement value that is closely correlated with the concentration of the target chemical analyte in the b ...


2
Bret Berner, Timothy C Dunn, Kathleen C Farinas, Michael D Garrison, Ronald T Kurnik, Matthew J Lesho, Russell O Potts, Janet A Tamada, Michael J Tierney: Device for signal processing for measurement of physiological analytes. Cygnus, Barbara G McClung, Gary R Fabian, July 22, 2003: US06595919 (671 worldwide citation)

A method is provided for continually or continuously measuring the concentration of target chemical analytes present in a biological system, and processing analyte-specific signals to obtain a measurement value that is closely correlated with the concentration of the target chemical analyte in the b ...


3
Bret Berner, Timothy C Dunn, Kathleen C Farinas, Michael D Garrison, Ronald T Kurnik, Matthew J Lesho, Russell O Potts, Janet A Tamada, Michael J Tierney: Signal processing for measurement of physiological analytes. Animas Corporation, November 13, 2007: US07295867 (497 worldwide citation)

A method is provided for continually or continuously measuring the concentration of target chemical analytes present in a biological system, and processing analyte-specific signals to obtain a measurement value that is closely correlated with the concentration of the target chemical analyte in the b ...


4
Timothy C Dunn, Yalia Jayalakshmi, Ronald T Kurnik, Matthew J Lesho, Jonathan James Oliver, Russell O Potts, Janet A Tamada, Steven Richard Waterhouse, Charles W Wei: Microprocessors for use in a device for predicting physiological values. Cygnus, Barbara G McClung, Robins & Pasternak, December 4, 2001: US06326160 (470 worldwide citation)

The invention relates generally to methods, systems, and devices for measuring the concentration of target analytes present in a biological system using a series of measurements obtained from a monitoring system and a Mixtures of Experts (MOE) algorithm. In one embodiment, the present invention desc ...


5
Shashi P Desai, Timothy C Dunn, Matthew J Lesho, Russell O Potts, Janet A Tamada, Charles W Wei: Methods for computing rolling analyte measurement values, microprocessors comprising programming to control performance of the methods, and analyte monitoring devices employing the methods. Animas Technologies, RatnerPrestia, March 14, 2006: US07011630 (463 worldwide citation)

The present invention relates to methods to increase the number of analyte-related signals used to provide analyte measurement values, e.g., when two or more analyte-related signals are used to obtain a single analyte measurement value a “rolling” value based on the two or more signals can be employ ...


6
Ronald T Kurnik, Jonathan James Oliver, Russell O Potts, Steven Richard Waterhouse, Timothy C Dunn, Yalia Jayalakshmi, Matthew J Lesho, Janet A Tamada, Charles W Wei: Method and device for predicting physiological values. Cygnus, Barbara G McClung, Robins & Associates, January 30, 2001: US06180416 (420 worldwide citation)

The invention relates generally to methods, systems, and devices for measuring the concentration of target analytes present in a biological system using a series of measurements obtained from a monitoring system and a Mixtures of Experts (MOE) algorithm. In one embodiment, the present invention desc ...


7
Timothy C Dunn, Yalia Jayalakshmi, Ronald T Kurnik, Matthew J Lesho, Jonathan James Oliver, Russell O Potts, Janet A Tamada, Steven Richard Waterhouse, Charles W Wei: Method and device for predicting physiological values. Cyngnus, Barbara G McClung, Gary R Fabian, November 25, 2003: US06653091 (297 worldwide citation)

The invention relates generally to methods, systems, and devices for measuring the concentration of target analytes present in a biological system using a series of measurements obtained from a monitoring system and a Mixtures of Experts (MOE) algorithm. In one embodiment, the present invention desc ...


8
Shashi P Desai, Timothy C Dunn, Matthew J Lesho, Russell O Potts, Janet A Tamada, Charles W Wei: Methods for estimating analyte-related signals, microprocessors comprising programming to control performance of the methods, and analyte monitoring devices employing the methods. Animas Technologies, April 20, 2010: US07699775 (147 worldwide citation)

The present invention relates to methods to increase the number of analyte-related signals used to provide analyte measurement values, e.g., when two or more analyte-related signals are used to obtain a single analyte measurement value a “rolling” value based on the two or more signals can be employ ...


9
Timothy C Dunn, Yalia Jayalakshmi, Ronald T Kurnik, Matthew J Lesho, Jonathan James Oliver, Russell O Potts, Janet A Tamada, Steven Richard Waterhouse, Charles W Wei: Method and device for predicting physiological values. Animas Technologies, July 29, 2008: US07405055 (26 worldwide citation)

The invention relates generally to methods, systems, and devices for measuring the concentration of target analytes present in a biological system using a series of measurements obtained from a monitoring system and a Mixtures of Experts (MOE) algorithm. In one embodiment, the present invention desc ...


10
Timothy C Dunn, Yalia Jayalakshmi, Ronald T Kurnik, Matthew J Lesho, Jonathan James Oliver, Russell O Potts, Janet A Tamada, Steven Richard Waterhouse, Charles W Wei: Method and device for predicting physiological values. Animas Corporation, May 3, 2011: US07935499 (23 worldwide citation)

The invention relates generally to methods, systems, and devices for measuring the concentration of target analytes present in a biological system using a series of measurements obtained from a monitoring system and a Mixtures of Experts (MOE) algorithm. In one embodiment, the present invention desc ...



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