Jay L. Hineman
- Courses4
- Reviews6
- School: Fordham University
- Campus: Rose Hill
- Department: Mathematics
- Email address: Join to see
- Phone: Join to see
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Location:
441 E Fordham Rd
Bronx, NY - 10458 - Dates at Fordham University: April 2014 - August 2016
- Office Hours: Join to see
Biography
Fordham University Rose Hill - Mathematics
Research Scientist at GEOMETRIC DATA ANALYTICS
Research
Jay
Hineman
Durham, North Carolina
A team leader, researcher, and coder based in Durham, NC. I build pipelines from mathematics to algorithms to deployments to results. I apply mathematical insight to problems in materials, biology, and machine learning. I execute these insights at scale using agile development practices for code and deployment.
Experience
University of Kentucky
Visiting Lecturer in Mathematics
As a visiting lecturer at University of Kentucky I was responsible for instruction of large service courses (often over 100 students), coordination of services courses to include oversight of graduate assistants, undergraduate assistants, and part-time instructors, and course development and piloting activities.
University of Kentucky
Graduate TA
Served as a full instructor responsible for course
design, lectures, and evaluation---taught a wide range of upper and lower division mathematics classes.GEOMETRIC DATA ANALYTICS
Senior Mathematician
Jay worked at GEOMETRIC DATA ANALYTICS as a Senior Mathematician
GEOMETRIC DATA ANALYTICS
Mathematician
Development, implementation, and application of tools from applied mathematics, statistics, and computer science to modeling and data analysis problems. Projects have involved target tracking, logistics and supply chain modeling, and cyber security analysis.
Fordham University
Peter M. Curran Research Instructor
Visiting assistant professor in the mathematics department.
Education
University of Kentucky
Doctor of Philosophy (Ph.D.)
Mathematics
My dissertation research was conducted in nonlinear partial differential equations (PDE) and supervised by Dr. Changyou Wang. Title: THE HYDRODYNAMIC FLOW OF NEMATIC LIQUID CRYSTALS IN $\mathbb{R}^3$ Abstract: This manuscript demonstrates the well-posedness (existence, uniqueness, and regularity of solutions) of the Cauchy problem for simplified equations of nematic liquid crystal hydrodynamic flow in three dimensions for initial data that is uniformly locally $L^3(\mathbb{R}^3)$ integrable ( $L^3_{\mathbb{U}} (\mathbb{R}^3 )). The equations examined are a simplified version of the equations derived by Ericksen and Leslie. Background on the continuum theory of nematic liquid crystals and their flow is provided as are explanations of the related mathematical literature for nematic liquid crystals and the Navier--Stokes equations.University of Kentucky
Visiting Lecturer in Mathematics
As a visiting lecturer at University of Kentucky I was responsible for instruction of large service courses (often over 100 students), coordination of services courses to include oversight of graduate assistants, undergraduate assistants, and part-time instructors, and course development and piloting activities.University of Kentucky
Graduate TA
Served as a full instructor responsible for course design, lectures, and evaluation---taught a wide range of upper and lower division mathematics classes.University of Kentucky College of Engineering
Graduate certificate
Computational Fluid Dynamics
Northern Arizona University
Master of Science (MS)
Mathematics
Publications
A survey of results and open problems for the hydrodynamic flow of nematic liquid crystals
Proceeding of Variational and Topological Methods: Theory, Applications, Numerical Simulations, and Open Problems
A survey of results and open problems for the hydrodynamic flow of nematic liquid crystals
Proceeding of Variational and Topological Methods: Theory, Applications, Numerical Simulations, and Open Problems
Regularity and uniqueness of the heat flow of biharmonic maps
Preprint
A survey of results and open problems for the hydrodynamic flow of nematic liquid crystals
Proceeding of Variational and Topological Methods: Theory, Applications, Numerical Simulations, and Open Problems
Regularity and uniqueness of the heat flow of biharmonic maps
Preprint
Well-posedness of nematic liquid crystal flow in $L^3_{\text{uloc}} (\mathbb{R}^3 )$
Preprint
A survey of results and open problems for the hydrodynamic flow of nematic liquid crystals
Proceeding of Variational and Topological Methods: Theory, Applications, Numerical Simulations, and Open Problems
Regularity and uniqueness of the heat flow of biharmonic maps
Preprint
Well-posedness of nematic liquid crystal flow in $L^3_{\text{uloc}} (\mathbb{R}^3 )$
Preprint
GNGA for general regions: elliptic PDE and crossing semilinear eigenvalues
Commun. Nonlinear Sci. Numer. Simul.
