# SIAM Conference Archives

**George Washington University Chapter of SIAM:**

**Conference on Applied Mathematics**

**2017**which will be held on Saturday,

**April 29th, 2017**at the

**Phillips Hall, Room 459**(801 22nd St NW, Washington, DC).

**light breakfast and lunch will be provided**to attendees. There is no cost to attend. To help us get an estimate of total number of participants, please make sure that you register in advance. For more information, please see http://blogs.gwu.edu/

*Tyler Drombosky (Fugue, Inc):*

Applications for Semantic Graphs in Infrastructure Management

Applications for Semantic Graphs in Infrastructure Management

One of the ongoing challenges is ensuring customers can update their existing infrastructure. They do this by changing their configuration document and handing it to Fugue. Fugue must decide which resources need to be created, deleted, and modified. Choosing the incorrect operation can result in extraneous costs, unanticipated downtime, or destruction of valuable data.

We developed an algorithm inspired by the subgraph isomorphism problem that guarantees we never unnecessarily create or delete resources. We represent the declared infrastructure as a semantic graph, with the resources as nodes and relationships between resources as edges. The metadata associated with the semantic graph provides us with enough additional information to make this otherwise intractable problem feasible in a commercial setting.

*Chenyun Luo (Johns Hopkins University)*

*On the motion of a slightly compressible liquid*

*Ming Zhong (Johns Hopkins University)*

*Hierarchical Reconstruction Method for De-convolution on Discrete Helmholtz Filter*

Hierarchical Reconstruction method for solving the de-convolution problem on the discrete

Helmholtz filter (defined in the Finite Element setting). The de-convolution on the discrete Helmholtz filter comes from solving the closure problem from the Large Eddy Simulation (LES). The ill-posedness

is caused by the ill-condition of the discrete Helmholtz filter when the resolution scale in solving the the LES problem.

*Xiaochuan Tian (Columbia University)*

*Asymptotically Compatible Schemes for Robust Discretization of Nonlocal Models*

Nonlocal continuum models are in general integral-differential equations in place of the conventional partial differential equations. While nonlocal models show their effectiveness in modeling a number of anomalous and singular processes in physics and material sciences, they also come with increased difficulty in numerical analysis with nonlocality involved. In this talk, we study robust numerical approximations of linear nonlocal peridynamic models parametrized by the horizon parameter. In particular, we provide asymptotically compatible discretization for nonlocal parametrized models which give convergent schemes in both nonlocal settings and their local limits.

*Jeremiah Emidih (University of Maryland, College Park)*

*Cancer Cell Line Data Fusion for Identifying Response Determinants in Precision Medicine*

Nonlocal continuum models are in general integral-differential equations in place of the conventional partial differential equations. While nonlocal models show their effectiveness in modeling a number of anomalous and singular processes in physics and material sciences, they also come with increased difficulty in numerical analysis with nonlocality involved. In this talk, we study robust numerical approximations of linear nonlocal peridynamic models parametrized by the horizon parameter. In particular, we provide asymptotically compatible discretization for nonlocal parametrized models which give convergent schemes in both nonlocal settings and their local limits.

*Pratima Hebbar (University of Maryland, College Park)*

Multi-type branching processes with time-dependent branching rates.

Multi-type branching processes with time-dependent branching rates.

In this talk I will introduce Branching Processes and give some background on the limiting behavior of single type branching processes in the super critical, critical and sub critical cases. I will then introduce Multi-type branching Processes and explain the results we obtained for these processes with time-dependent branching rates. Our first result gives a criterion for almost sure extinction of the process in terms of the asymptotic behavior of the branching rates, and our second result gives a necessary and sufficient condition for the existence of an exponential limit in the case of a scaled multi-type branching process conditioned on its survival. This is joint work with Dmitry Dolgopyat, Leonid Koralov, and Mark Perlman.

*Ratna Khatri (George Mason University)*

*Consensus in one population model of opinion dynamics*

We consider a continuous version of the Krause model of opinion dynamics. As per the model, agents update their opinions, which are one-dimensional, based on a compactly supported interaction function. Interaction between agents either leads to a state of consensus, where agents

starting out with differing initial opinions converge to a single opinion as time evolves, or to a fragmented state with multiple opinions. We linearize the system about a uniform density solution and predict consensus or fragmentation based upon the most unstable mode of the dispersion

relation, which is then compared against numerical simulations for varying domain sizes and interaction functions.