Center for Mathematics and Artificial Intelligence

CMAI organizes the SIAM DC-MD-VA Sectional meeting (Fall 2024)

SIAM Washington-Baltimore Section Fall Meeting 2024 (In-Person Only)

December 6, 2024

Van Metre Hall, George Mason University (Arlington Campus)
3351 Fairfax Dr, Arlington, VA 22201

Registration deadline: November 1, 2024

Find Registration Details Here: https://math.gmu.edu/~hantil/SIAM/Fall2024/

Congratulations Sean Carney!

CMAI postdoc Sean Carney becomes a Tenure Track Assistant Professor at Union College, NY

Congratulations Kiefer Green!

PhD student Kiefer Green successfully defends his dissertation titled “Multigrid Algorithms and Software for PDEs and Optimization”

CMAI co-organizes the 8th Computational & Mathematical Biomedical Engineering Conference

The International Conference on Computational & Mathematical Biomedical Engineering aims to bring together fellow researchers and academics, specialists of several disciplines, practitioners and graduate students with a common interest, to discuss the current state of the art of Computational Biomedical Engineering research.

Find Event Information Here: https://www.compbiomed.net/2024/index.htm

CMAI organizes the Sayas Numerics Day

SAYAS NUMERICS DAY 2024

formerly DelMar Numerics Day

Workshop on Computational Mathematics
George Mason University, Arlington Campus
May 11, 2024

Information Here: https://numericsday.math.umd.edu/

Studying optimization for neuromorphic imaging and digital twins

Habir Antil and Rainald Löhner

Harbir Antil (PI), director of the Center for Mathematics and Artificial Intelligence (CMAI), professor of Mathematical Sciences, and Rainald Löhner (co-PI), director of Computational Fluid Dynamics Lab, professor of Physics and Astronomy, received funding from the Air Force Office of Scientific Research (AFOSR), under the prestigious DURIP program, to establish a neuromorphic imaging and digital twins lab with capabilities to design new optimization algorithms. 

This project will setup the Neuromorphic Imaging and Digital Twins Lab—a first of its kind physical lab in the country under the Center for Mathematics and Artificial Intelligence (CMAI) at George Mason University. This lab will contain equipment for neuromorphic imaging, neuromorphic computing, and digital twins that will not only support research at Mason but support the needs of local organizations and beyond. 

“Unlike traditional cameras that detect pixel intensity synchronously, neuromorphic sensors only detect ‘changes’ at pixels where a change is occurring asynchronously. This enables neuromorphic sensors to sample at a micro-second level and efficiently capture the dynamics,” said Antil. “This will be useful for images/videos captured by phone, planes, drones, or other objects subject to motion blur, high contrast environment, and environment with access to limited power and memory, so that so that they can collect higher quality imaging.”

The project will be a testbed for new algorithms and subsequent deployment of this hardware in the field. Using the generated data, the algorithms will ultimately assist in object recognition, motion detection, and scene understanding “We’re currently procuring neuromorphic cameras, drones, and audio sensors now that will generate data and allow our team to begin testing” Antil said.

With the acquired hardware, the researchers will create an open environment that will be accessible to several neighboring institutions, including Academia, National Labs (e.g., US Naval Research Lab Washington DC, AFRL) Industries, and historically Black colleges and universities (HBCUs). This lab will also serve as a national resource. Significant impact is expected on Air Force, Space Force (imaging, object tracking), Civil Engineering (structures such as bridges), Machine Learning (neuromorphic computing), etc. 

Mason will host workshops and summer programs to train research on this hardware.

The funding (direct) amount is $357,868 from the Air Force Office of Scientific Research (AFOSR) for this project. Funding began in April 2024 and will end in late March 2025.

For questions, please reach to Harbir Antil: hantil@gmu.edu.

Studying efficient algorithms for optimization problems with PDE constraints

Harbir Antil, professor, Mathematical Sciences; Director, Center for Mathematics and Artificial Intelligence (CMAI), received funding for the project: “Efficient Algorithms for Optimization Problems with PDE Constraints.” 

Antil and his collaborators are examining generic optimization problems constrained by partial differential equations (PDEs) with or without uncertainty. In case of uncertainty, a risk-averse optimization framework will be developed. Decomposition and Compression techniques will be utilized to overcome the high computational costs. Several applications in various disciplines such as structural-, fluid-, electro-, thermos-, dynamics will be considered. 

Antil received $1,330,506 from the Office of Naval Research for this project. Funding began in Feb. 2024 and will end in late Jan. 2029. 

CMAI organizes the NSF funded Mathematical Opportunities in Digital Twins workshop

CMAI organizes the NSF funded Mathematical Opportunities in Digital Twins workshop.

Website Information Here: https://mathdt.science.gmu.edu/

CMAI together with Mathematical Science is now participating in the Inmas program 

Internship Network in the Mathematical Sciences

Expanding career options for students

Providing value for companies and labs

The power of Mathematics and Statistics at work

Antil receives funding for workshop on digital twins

Harbir Antil, Director, Center for Mathematics and Artificial Intelligence, and Professor, Mathematical Sciences, received funding for: “Mathematics for Digital Twins (MATH-DT).”

This award will provide support for a workshop titled “Mathematical Opportunities in Digital Twins” to be held on Dec. 11-13, 2023, at George Mason University’s campus in Arlington, VA. 

The workshop will bring together key experts working in many aspects of mathematics, key application fields, and industry with the goal of determining the ways in which mathematics can contribute to the research on digital twins and how digital twins can open up new mathematical directions, as well as to identify connections, synergies, and organizational efforts within the mathematical community and other disciplines. 

View Full Article Here: https://www.eurekalert.org/news-releases/999097