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"I decided to use PV-WAVE with my teaching because it allows
me to display 3D surfaces and volume imaging. It is even helpful to
one of my students, who uses PV-WAVE for his classroom homework.”
-Dr. Abraham Grader, Associate Professor,
Petroleum Engineering
Pennsylvania State University
QUICK
FACTS
Students in the College of Earth and Mineral Sciences at Pennsylvania
State University are using PV-WAVE in an advanced reservoir-engineering
course. They are studying fluid flow in underground strata and rely
heavily on solving diffusion partial differential equations describing
various reservoir cases. PV-WAVE allows students to easily understand
reservoir phenomena when they are illustrated in three dimensions.
THE PROBLEM
"My students are not intimidated by high-speed computer use
in the classroom. They like it. It provides a wonderful platform
for bridging the gap between symbolic representations and physical
phenomena," said
Dr. Abraham Grader, associate professor of petroleum engineering
at Pennsylvania State University in College Station, Pennsylvania.
Dr. Grader works in the mineral engineering department at the College
of  Earth
and Mineral Sciences. He is one of seven faculty members who specialize
in reservoir engineering and computer modeling.
"We do a lot of computer and experimental work, as well as
teach at the graduate and undergraduate level," he said.
THE SOLUTION
Dr. Grader is currently using PV-WAVE, a visual data analysis software
package developed by Visual Numerics, in an advanced reservoir-engineering
course that studies fluid flow in underground strata. His class
relies heavily on solving diffusion partial differential equations
describing various reservoir cases.
"I am using visualization as a means to describe spatial and
temporal piezometric fluid fields, and, together with my students,
we do a lot of particle tracking," he explained. "My goal
is to have the same computer environment in the classroom that I
have in my office. This way I can prepare curricula on my own computer.
I can then enter the classroom, hook up to the network and actually
demonstrate lesson plans on a large screen. The students love it,"
he said.
Dr. Grader claims that his use of PV-WAVE allows for greater student/teacher
interaction. Visual display lets him solicit ideas from his students
and simulate and display these in real time. He says it is easier
for his students to understand reservoir phenomena when they are
illustrated in three dimensions because the events are made "self-explanatory."
The product is used as an interface for the thousand of CAT (computer-assisted
topography) scan images generated for rock characterization and
for studies of fluid flow in porous media.
RETURN ON INVESTMENT
"My department is also using PV-WAVE for synthetic imaging,
which are images created directly on the computer. I decided to
use PV-WAVE with my teaching because it allows me to display 3D
surfaces and volume imaging," Grader said. "It is even
helpful to my students, who use PV-WAVE for their classroom homework."
WORLD CLASS PRODUCTS, SERVICES,
AND SUPPORT
Visual Numerics has provided technical software
solutions for numerical analysis and visualization for over 30 years.
The company's software products help users understand complex data
from a variety of sources and build business-critical applications.
Visual Numerics offers two product lines: the IMSL® Numerical
Libraries for powerful mathematical and statistical analysis and
the PV-WAVE® visual data analysis development environment. Visual
Numerics also offers customized consulting services for applications
that involve mathematical, statistical, or visual data analysis
to meet today’s business analytical needs.
The IMSL Numerical Libraries which include
the IMSL C Library, IMSL Fortran Library and JMSL™ Library
for Java™ applications are the industry standard for numerical
analysis. They deliver developers with the breadth and depth of
core algorithms allowing for the rapid development of any application.
Whether developing applications in C, Fortran, or Java, or on UNIX,
Windows or Linux, the robust IMSL Libraries provide the reliable
foundation and the building blocks developers need.
The PV-WAVE family of products which includes
PV-WAVE, TS-WAVE, and JWAVE delivers engineers with the development
tools to efficiently and accurately meet their data analysis needs.
PV-WAVE solutions allow users to rapidly import, manipulate, analyze
and visualize data. The PV-WAVE family also includes robust time
series analysis software as well as the ability to share analysis
results across the enterprise with a Java-based solution. And, unlike
other products, PV-WAVE Advantage includes a sophisticated set of
analysis routines based on the industry-standard IMSL Libraries.
In addition, Visual Numerics Consulting
Services combine technical expertise, decades of hands-on experience
and a combination of powerful products to create the highest quality
solutions possible for your visual data analysis needs.
Visual Numerics unique combination of products
and services rapidly enhance ROI by delivering the highest efficiency,
greatest accuracy and maximum performance.
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Industry
Research & Development
Application
Computer Modeling
Product
PV-WAVE
Penn State is a multi-campus public land grant university that
improves the lives of people in Pennsylvania, the nation, and the
world through integrated, high-quality programs in teaching, research,
and outreach. Its instructional mission includes undergraduate,
graduate, and continuing education informed by scholarship and research.
Key Benefits
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Analysis of fluid flow in underground strata
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High speed computer modeling |
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Particle tracking |
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Interactive display capabilities |
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Ability to understand reservoir phenomena |
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