Applied Math Seminar
Applied Math Seminar
228 Gordon Palmer Hall Tuscaloosa, AL, United StatesApplied Math Seminar – Xu Zhang, Mississippi State University
228 Gordon Palmer Hall Tuscaloosa, AL, United StatesTitle: Immersed Finite Element Methods for Interface Problems Basic idea, Development, Analysis, and Applications Abstract: Simulating a multi-scale/multi-physics phenomenon often involves a domain consisting of different materials. This often leads to the so-called interface problems of partial differential equations. Classical finite elements methods can solve interface problems satisfactorily if the mesh is aligned with interfaces; otherwise the
Applied Math Seminar – Mojdeh Rasoulzadeh, University of Alabama
228 Gordon Palmer Hall Tuscaloosa, AL, United StatesTitle: Effective models of flow in highly heterogeneous fractured/vuggy porous media Abstract: The presence of vugs and fractures in porous media can significantly affect pressure and flow behavior of a fluid. In this talk, I will present the effective models of flow in a porous medium including multi-scale fractures and several vuggs of various
Applied Math Seminar – Brendan Ames, University of Alabama
228 Gordon Palmer Hall Tuscaloosa, AL, United StatesTitle: Semidefinite relaxation of the clustering problem and first-order methods for their solution Abstract: I will discuss a novel relaxation approach for the graph clustering problem. Although intractable in worst-case, much recent research has established that clusters can be recovered if the underlying network or data is well-behaved. In particular, I will provide conditions on
Applied Math Seminar – Wei Zhu, University of Alabama
228 Gordon Palmer Hall Tuscaloosa, AL, United StatesTitle: New augmented Lagrangian method for a curvature dependent segmentation model Abstract: Augmented Lagrangian methods (ALMs) have proved to be successful for the minimization of curvature dependent functionals in image processing. However, those ALM based algorithms often suffer from choosing appropriate penalty parameters in the numerical implementation. In this talk, we will discuss our recent
Applied Math Seminar – Aijun Song, UA Dept. of Electrical and Computer Engineering
228 Gordon Palmer Hall Tuscaloosa, AL, United StatesTitle: Time reversal acoustic communication in the ocean Abstract: The global marine ecosystem is undergoing significant changes due to human activities and natural processes. These changes call for enhanced capabilities to sample and communicate in the oceans. With this background, underwater acoustic communication has attracted much attention across multiple disciplines, as this key subsea technology
Applied Math Seminar – Lin Mu, Oak Ridge National Laboratory
228 Gordon Palmer Hall Tuscaloosa, AL, United StatesTitle: A Priori and a posteriori error estimate for weak Galerkin finite element method on polygonal meshes Abstract: Polygonal mesh has advantages including lower DOFs requirement for the same level of accuracy and more flexibility in generating mesh, and better mesh quality over standard discretization with quad mesh or triangular mesh. Also the hanging nodes
Applied Math Seminar – Kevin Curtin, UA Department of Geography
228 Gordon Palmer Hall Tuscaloosa, AL, United StatesTitle: Determining Optimal Police Patrol Areas…and More: a Research Program in Quantitative Human Geography Abstract: My research program is rooted in the Quantitative Revolution in Geography that began in the 1950s, and that has culminated in the broad acceptance and use of Geographic Information Systems. More specifically, my research lies in the use of quantitative methods
Applied Math Seminar – Kyle Mandli (Columbia University)
Title of talk: Computational Challenges to Prediction and Mitigation of Coastal Hazards Abstract: Coastal flooding due to severe storms is one of the most widespread and damaging hazards faced around the world. The threat of these events has grown not only due to increased population and economic reliance on coastal regions but also due to
Applied Math Seminar – Vishesh Vikas (University of Alabama)
228 Gordon Palmer Hall Tuscaloosa, AL, United StatesTitle: Applied Mathematics for Soft Robotics Abstract: Soft materials are a bulk or composite collection of matter that undergoes deformations of similar or greater magnitude than the deformation of the environment, either plastically or elastically, within the force regime applied by its environment. For roboticists, soft materials can withstand impacts, are elastic and highly deformable,