Resumes
Resumes
Ullysses Eoff Phones & Addresses
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Wesley Chapel, FL
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Scappoose, OR
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Portland, OR
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Nampa, ID
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Boise, ID
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Meridian, ID
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Idaho Falls, ID
Publications
Us Patents
Method, System, And Apparatus For Virtual Modeling Of Biological Tissue With Adaptive Emergent Functionality
View pageUS Patent:
20070233441, Oct 4, 2007
Filed:
Sep 23, 2005
Appl. No.:
11/234413
Inventors:
William Crowley - Eagle ID, US
Ullysses Eoff - Meridian ID, US
Cap Petschulat - Boise ID, US
Mason Vail - Nampa ID, US
Richard Newman - Meridian ID, US
Timothy Andersen - Boise ID, US
Timothy Otter - Caldwell ID, US
Robert Davis - Boise ID, US
Ullysses Eoff - Meridian ID, US
Cap Petschulat - Boise ID, US
Mason Vail - Nampa ID, US
Richard Newman - Meridian ID, US
Timothy Andersen - Boise ID, US
Timothy Otter - Caldwell ID, US
Robert Davis - Boise ID, US
Assignee:
Crowley Davis Research, Inc. - Eagle ID
International Classification:
G06G 7/48
G06G 7/58
G06G 7/58
US Classification:
703011000
Abstract:
A method system, and apparatus for virtual modeling of biological tissue yields virtual multicellular individuals that exhibit adaptive emergent functionality in response to environmental stimuli. Virtual environmental parameters and cells with genomes are generated, and modified by genetic operations. Cells are developed into generations of multicellular individuals, which are evaluated and selected via evolutionary search according to fitness criteria, and individuals exhibiting adaptive emergent functionality, such as self-repair, are developed and identified.
Virtual Tissue With Emergent Behavior And Modeling Method For Producing The Tissue
View pageUS Patent:
20090070087, Mar 12, 2009
Filed:
Sep 7, 2007
Appl. No.:
11/899927
Inventors:
Richard D. Newman - Meridian ID, US
Timothy L. Anderson - Boise ID, US
Ullysses A. Eoff - Nampa ID, US
Marc G. Footen - Nampa ID, US
Timothy Otter - Caldwell ID, US
Cap Petschulat - Boise ID, US
Mason E. Vail - Nampa ID, US
David G. Zuercher - Boise ID, US
Timothy L. Anderson - Boise ID, US
Ullysses A. Eoff - Nampa ID, US
Marc G. Footen - Nampa ID, US
Timothy Otter - Caldwell ID, US
Cap Petschulat - Boise ID, US
Mason E. Vail - Nampa ID, US
David G. Zuercher - Boise ID, US
International Classification:
G06G 7/48
US Classification:
703 11
Abstract:
A multi-cellular virtual tissue having the emergent properties of self-repair, adaptive response to an altered environment, or tissue differentiation, and a method of generating the tissue by computer modeling are disclosed. The tissue is formed of a plurality of virtual cells, each having a heritable virtual genome containing a set of virtual genes relating to each of (a1) intercellular adhesion, (a2) cell division, (a3) cell growth, (a4) intercellular signaling, and (a5) the state of one cell relative to an adjacent cell. In forming the tissue, the sequential operation and actions of the genes are guided by (1) chemical-interaction rules that govern the extra-genetic behavior of one or more molecules placed or produced in the environment, (2) action rules that specify a cell's adhesion, growth, or cell-division condition, in response to molecules produced by a cell's genes relating to intercellular adhesion, cell growth, or cell division, respectively, and (3) physical-interaction rules that govern how a cell will move in response to its own growth or division or the growth or division of neighboring cells.
Cell-Based Models And Methods For Simulating Lymphocyte Differentiation And Other Biological Events
View pageUS Patent:
20100138204, Jun 3, 2010
Filed:
Sep 30, 2009
Appl. No.:
12/571409
Inventors:
Ullysses A. Eoff - Nampa ID, US
Michael A. Farrar - Minneapolis MN, US
Timothy Otter - Caldwell ID, US
David Zuercher - Boise ID, US
Michael A. Farrar - Minneapolis MN, US
Timothy Otter - Caldwell ID, US
David Zuercher - Boise ID, US
International Classification:
G06G 7/58
US Classification:
703 11
Abstract:
Systems and methods are disclosed herein that enable computer-implemented modeling of lymphocyte differentiation and developmental processes. Cell-based models and methods for simulating natural and transgenic lymphocyte differentiation are also disclosed. In some embodiments, systems and methods are provided for cell-centric simulation of lymphocyte differentiation with accommodating virtual thymic and/or bone marrow environment feedback. In one embodiment, a computer-implemented method of modeling lymphocyte differentiation can include receiving configurable simulation information and initializing an ontogeny engine to an initial step boundary in accordance with the configurable simulation information. The method can also include advancing the ontogeny engine, until a halting condition is encountered, from a current step boundary to a next step boundary in accordance with the configurable simulation information and the current step boundary. The initial step boundary can define at least one virtual early lymphoid progenitor cell. The advancing can include performing a stepCells function.
Systems And Methods For Cell-Centric Simulation Of Biological Events And Cell Based-Models Produced Therefrom
View pageUS Patent:
20100153082, Jun 17, 2010
Filed:
Sep 4, 2009
Appl. No.:
12/554870
Inventors:
Richard D. Newman - Meridian ID, US
Timothy L. Andersen - Boise ID, US
Ullysses A. Eoff - Nampa ID, US
Marc G. Footen - Nampa ID, US
Jeffrey W. Habig - Boise ID, US
Timothy Otter - Caldwell ID, US
Cap C. Petschulat - Berkeley CA, US
Mason E. Vail - Nampa ID, US
David G. Zuercher - Boise ID, US
Timothy L. Andersen - Boise ID, US
Ullysses A. Eoff - Nampa ID, US
Marc G. Footen - Nampa ID, US
Jeffrey W. Habig - Boise ID, US
Timothy Otter - Caldwell ID, US
Cap C. Petschulat - Berkeley CA, US
Mason E. Vail - Nampa ID, US
David G. Zuercher - Boise ID, US
International Classification:
G06G 7/60
US Classification:
703 11
Abstract:
Systems and methods are provided herein that enable computer-implemented modeling of a biological event. Cell-based models produced from such systems and methods are also disclosed. In some embodiments, systems and methods are provided for cell-centric simulation with accommodating environment feedback. In one embodiment, a computer-implemented method of modeling a biological event can include receiving configurable simulation information and initializing an ontogeny engine to an initial step boundary in accordance with the configurable simulation information. The method can also include advancing the ontogeny engine from a current step boundary to a next step boundary in accordance with the configurable simulation information and the current step boundary. The advancing can include performing a metabolizeCell function. The method can further include continuing the advancing until a halting condition is encountered. In some embodiments, simulation of biological events includes modeling biological processes, such as development of ECM, multicellular tissue and differentiation of pluripotent cells.
Systems And Methods For Cell-Centric Simulation And Cell-Based Models Produced Therefrom
View pageUS Patent:
20100305929, Dec 2, 2010
Filed:
Mar 5, 2010
Appl. No.:
12/718873
Inventors:
Timothy L. Andersen - Boise ID, US
Ullysses A. Eoff - Nampa ID, US
Marc G. Footen - Nampa ID, US
Richard D. Newman - Meridian ID, US
Timothy Otter - Caldwell ID, US
Cap C. Petschulat - Berkeley CA, US
Mason E. Vail - Nampa ID, US
David G. Zuercher - Boise ID, US
Ullysses A. Eoff - Nampa ID, US
Marc G. Footen - Nampa ID, US
Richard D. Newman - Meridian ID, US
Timothy Otter - Caldwell ID, US
Cap C. Petschulat - Berkeley CA, US
Mason E. Vail - Nampa ID, US
David G. Zuercher - Boise ID, US
International Classification:
G06G 7/60
US Classification:
703 11
Abstract:
Systems and methods are provided herein that enable computer-implemented modeling of a biological event. Cell-based models produced from such systems and methods are also disclosed. In some embodiments, systems and methods are provided for cell-centric simulation with accommodating environment feedback. In one embodiment, a computer-implemented method of modeling a biological event can include receiving configurable simulation information and initializing an ontogeny engine to an initial step boundary in accordance with the configurable simulation information. The method can also include advancing the ontogeny engine from a current step boundary to a next step boundary in accordance with the configurable simulation information and the current step boundary. The advancing can include performing a stepCells function. The method can further include continuing the advancing until a halting condition is encountered. In some embodiments, simulation of biological events includes modeling biological processes, such as development of multicellular tissue and differentiation of pluripotent cells.