## ASU Electronic Theses and Dissertations

This collection includes most of the ASU Theses and Dissertations from 2011 to present. ASU Theses and Dissertations are available in downloadable PDF format; however, a small percentage of items are under embargo. Information about the dissertations/theses includes degree information, committee members, an abstract, supporting data or media.

In addition to the electronic theses found in the ASU Digital Repository, ASU Theses and Dissertations can be found in the ASU Library Catalog.

Dissertations and Theses granted by Arizona State University are archived and made available through a joint effort of the ASU Graduate College and the ASU Libraries. For more information or questions about this collection contact or visit the Digital Repository ETD Library Guide or contact the ASU Graduate College at gradformat@asu.edu.

- 83 Arizona State University
- 25 Castillo-Chavez, Carlos
- 17 Kuang, Yang
- 15 Kang, Yun
- 14 Platte, Rodrigo
- 13 Gardner, Carl
- 12 Smith, Hal
- more
- 10 Armbruster, Dieter
- 10 Tang, Wenbo
- 8 Nagy, John
- 7 Jackiewicz, Zdzislaw
- 7 Kostelich, Eric
- 7 Ringhofer, Christian
- 6 Crook, Sharon
- 6 Gelb, Anne
- 6 Thieme, Horst
- 5 Baer, Steven
- 5 Motsch, Sebastien
- 5 Mubayi, Anuj
- 4 Chowell-Puente, Gerardo
- 4 Cochran, Douglas
- 4 Mahalov, Alex
- 4 Welfert, Bruno
- 3 Anderies, John M
- 3 Baer, Steven M
- 3 Collins, James
- 3 Crook, Sharon M
- 3 Janssen, Marcus A
- 3 Jones, Donald
- 3 Lanchier, Nicolas
- 3 Renaut, Rosemary
- 3 Taylor, Jesse
- 3 Towers, Sherry
- 2 Calhoun, Ronald
- 2 Camacho, Erika T
- 2 Gardner, Carl L
- 2 Gumel, Abba
- 2 Herrmann, Marcus
- 2 Lampert, Adam
- 2 Lanchier, Nicholas
- 2 Lopez, Juan M.
- 2 Moustaoui, Mohamed
- 2 Papandreou-Suppappola, Antonia
- 2 Peet, Yulia
- 2 Perrings, Charles
- 2 Reiser, Mark
- 2 Safan, Muntaser
- 2 Suslov, Sergei
- 2 Welfert, Bruno D
- 2 Wirkus, Stephen
- 1 Abbott, Joshua K
- 1 Akis, Richard
- 1 Alanazi, Khalaf Matar
- 1 Alvarez, Roberto
- 1 Anderson, Karen S
- 1 Aparicio, Juan P
- 1 Applegate, J M
- 1 Araujo Mitrano, Arthur
- 1 Archibald, Richard
- 1 Armbruster, Hans
- 1 Armbruster, Hans D
- 1 Artemiadis, Panagiotis
- 1 Asphaug, Erik
- 1 Baer, Steve
- 1 Baez, Javier
- 1 Barley, Kamal Kevin
- 1 Berman, Spring M
- 1 Bilinsky, Lydia
- 1 Blattman, Joseph N
- 1 Bliss, Nadya Travinin
- 1 Boggess, Albert
- 1 Boone, Christopher
- 1 Burkow, Daniel Harrison
- 1 Buscaglia, Robert
- 1 Caldwell, Wendy K
- 1 Camacho, Erika
- 1 Castaneda, Edward
- 1 Castillo-Chávez, Carlos
- 1 Chang, Shaojie
- 1 Chowell, Diego
- 1 Coltin, Kevin Curosh
- 1 Dahm, Werner J.A.
- 1 Degrandi-Hoffman, Gloria D
- 1 Denker, Dennis
- 1 Duman, Tolga M
- 1 Durazo, Juan Alberto
- 1 Edme, Soho
- 1 Elkholy, Alexander
- 1 Elser, James J
- 1 Espinoza, Baltazar
- 1 Eubank, Randall
- 1 Evangelista, Arlene Morales
- 1 Everett, Rebecca Anne
- 1 Evilsizor, Stephen
- 1 Farrell, Alex Patrick
- 1 Feng, Zhilan
- 1 Fenichel, Eli
- 1 Fenichel, Eli P
- 1 Ferry, David
- 1 Fewell, Jennifer H

- 83 English

- 83 Public

- Applied mathematics
- 9 Biology
- 8 Mathematics
- 6 Ecology
- 6 Statistics
- 5 Epidemiology
- 4 Electrical engineering
- more
- 3 Economics
- 3 Engineering
- 3 Mathematical Modeling
- 3 Neurosciences
- 3 Oncology
- 2 Cancer
- 2 Cellular biology
- 2 Computational physics
- 2 Computer science
- 2 Dengue
- 2 Division of labor
- 2 Dynamical Systems
- 2 Ebola Virus Disease
- 2 Interacting Particle Systems
- 2 Lagrangian Coherent Structures
- 2 Mathematical Biology
- 2 Network theory
- 2 Ordinary Differential Equations
- 2 Persistence
- 2 Public health
- 2 Sparsity
- 2 Turbulence
- 2 bioeconomics
- 2 dynamical systems
- 2 mathematical modeling
- 1 AM-FM Modeling
- 1 Adaptive behavior
- 1 Aerospace engineering
- 1 Age Structure
- 1 Age-structured models
- 1 Agent Based Modeling
- 1 Agent based simulation
- 1 Algebraic
- 1 Analytic Hierarchy Process
- 1 Anthroponotic Visceral Leishmaniasis
- 1 Applied Mathematics
- 1 Applied physics
- 1 Asteroid 16 Psyche
- 1 Atmospheric sciences
- 1 Attraction/Repulsion
- 1 Bacteriophage
- 1 Barley Yellow Dwarf Virus
- 1 Basic Reproductive Number
- 1 Bayesian Parameter Estimation
- 1 Bias Estimation
- 1 Bifurcation
- 1 Biostatistics
- 1 Bombay Plague
- 1 Bootstrap Percolation
- 1 Botany
- 1 Bounded Domains
- 1 Burgers Equation
- 1 Cancer evolution
- 1 Cancer immunology
- 1 Cannibalism
- 1 Chemotaxis
- 1 Chikungunya
- 1 Chytridiomycosis
- 1 Civil engineering
- 1 Classification
- 1 Climate change
- 1 Cocaine
- 1 Collaboration
- 1 Combination Treatment
- 1 Community development
- 1 Competition
- 1 Competitive Exclusion
- 1 Complex Network
- 1 Complexity Adaptive Systems Science
- 1 Complexity Economics
- 1 Compressed Sensing
- 1 Compressive Sensing
- 1 Computational Mathematics
- 1 Computer vision
- 1 Consensus
- 1 Conservation biology
- 1 Cooperation
- 1 Cournot competition
- 1 Creativity
- 1 Cumulative infectious force
- 1 Data Assimilation
- 1 Death-Birth Updating Process
- 1 Delay Differential Equations
- 1 Dendritic Cell Vaccine
- 1 Device simulator
- 1 Diabetes
- 1 Differential Equations
- 1 Diffusion equation
- 1 Divergence-Free
- 1 Dopamine
- 1 Dopamine Transporter
- 1 Droop equation
- 1 Drug resistance

- Microfluidic Models of Tumor-Stroma Interactions to Study the Interplay of Cancer Cells with their Surrounding Microenvironment
- Ain't She Sweet: A Critical Choreographic Study of Identity & Intersectionality
- Suppositions for Desert Modernism: An Architectural Framework Informed by Climate, Natural Light, and Topography
- Concurrent reduction of trichloroethylene and perchlorate in continuous flow-through soil columns
- Design and Fabrication of Fabric ReinforcedTextile Actuators forSoft Robotic Graspers

Autonomic closure is a new general methodology for subgrid closures in large eddy simulations that circumvents the need to specify fixed closure models and instead allows a fully- adaptive self-optimizing closure. The closure is autonomic in the sense that the simulation itself determines the optimal relation at each point and time between any subgrid term and the variables in the simulation, through the solution of a local system identification problem. It is based on highly generalized representations of subgrid terms having degrees of freedom that are determined dynamically at each point and time in the simulation. This can be regarded ...

- Contributors
- Kshitij, Abhinav, Dahm, Werner J.A., Herrmann, Marcus, et al.
- Created Date
- 2019

Mathematical models are important tools for addressing problems that exceed experimental capabilities. In this work, I present ordinary and partial differential equation (ODE, PDE) models for two problems: Vicodin abuse and impact cratering. The prescription opioid Vicodin is the nation's most widely prescribed pain reliever. The majority of Vicodin abusers are first introduced via prescription, distinguishing it from other drugs in which the most common path to abuse begins with experimentation. I develop and analyze two mathematical models of Vicodin use and abuse, considering only those patients with an initial Vicodin prescription. Through adjoint sensitivity analysis, I show that focusing ...

- Contributors
- Caldwell, Wendy K, Wirkus, Stephen, Asphaug, Erik, et al.
- Created Date
- 2019

A continuously and stably stratified fluid contained in a square cavity subjected to harmonic body forcing is studied numerically by solving the Navier-Stokes equations under the Boussinesq approximation. Complex dynamics are observed near the onset of instability of the basic state, which is a flow configuration that is always an exact analytical solution of the governing equations. The instability of the basic state to perturbations is first studied with linear stability analysis (Floquet analysis), revealing a multitude of intersecting synchronous and subharmonic resonance tongues in parameter space. A modal reduction method for determining the locus of basic state instability is ...

- Contributors
- Yalim, Jason, Welfert, Bruno D., Lopez, Juan M., et al.
- Created Date
- 2019

This dissertation examines six different models in the field of econophysics using interacting particle systems as the basis of exploration. In each model examined, the underlying structure is a graph G = (V , E ), where each x ∈ V represents an individual who is characterized by the number of coins in her possession at time t. At each time step t, an edge (x, y) ∈ E is chosen at random, resulting in an exchange of coins between individuals x and y according to the rules of the model. Random variables ξt, and ξt(x) keep track of the ...

- Contributors
- Reed, Stephanie J, Lanchier, Nicolas, Smith, Hal, et al.
- Created Date
- 2019

I investigate two models interacting agent systems: the first is motivated by the flocking and swarming behaviors in biological systems, while the second models opinion formation in social networks. In each setting, I define natural notions of convergence (to a ``flock" and to a ``consensus'', respectively), and study the convergence properties of each in the limit as $t \rightarrow \infty$. Specifically, I provide sufficient conditions for the convergence of both of the models, and conduct numerical experiments to study the resulting solutions. Dissertation/Thesis

- Contributors
- Theisen, Ryan, Motsch, Sebastien, Lanchier, Nicholas, et al.
- Created Date
- 2018

Two urban flows are analyzed, one concerned with pollutant transport in a Phoenix, Arizona neighborhood and the other with windshear detection at the Hong Kong International Airport (HKIA). Lagrangian measures, identified with finite-time Lyapunov exponents, are first used to characterize transport patterns of inertial pollutant particles. Motivated by actual events the focus is on flows in realistic urban geometry. Both deterministic and stochastic transport patterns are identified, as inertial Lagrangian coherent structures. For the deterministic case, the organizing structures are well defined and are extracted at different hours of a day to reveal the variability of coherent patterns. For the ...

- Contributors
- Knutson, Brent, Tang, Wenbo, Calhoun, Ronald, et al.
- Created Date
- 2018

Robotic swarms can potentially perform complicated tasks such as exploration and mapping at large space and time scales in a parallel and robust fashion. This thesis presents strategies for mapping environmental features of interest – specifically obstacles, collision-free paths, generating a metric map and estimating scalar density fields– in an unknown domain using data obtained by a swarm of resource-constrained robots. First, an approach was developed for mapping a single obstacle using a swarm of point-mass robots with both directed and random motion. The swarm population dynamics are modeled by a set of advection-diffusion-reaction partial differential equations (PDEs) in which ...

- Contributors
- Ramachandran, Ragesh Kumar, Berman, Spring M, Mignolet, Marc, et al.
- Created Date
- 2018

Rabies is an infectious viral disease. It is usually fatal if a victim reaches the rabid stage, which starts after the appearance of disease symptoms. The disease virus attacks the central nervous system, and then it migrates from peripheral nerves to the spinal cord and brain. At the time when the rabies virus reaches the brain, the incubation period is over and the symptoms of clinical disease appear on the victim. From the brain, the virus travels via nerves to the salivary glands and saliva. A mathematical model is developed for the spread of rabies in a spatially distributed fox ...

- Contributors
- Alanazi, Khalaf Matar, Thieme, Horst R., Jackiewicz, Zdzislaw, et al.
- Created Date
- 2018

This thesis consists of three projects employing complexity economics methods to explore firm dynamics. The first is the Firm Ecosystem Model, which addresses the institutional conditions of capital access and entrenched competitive advantage. Larger firms will be more competitive than smaller firms due to efficiencies of scale, but the persistence of larger firms is also supported institutionally through mechanisms such as tax policy, capital access mechanisms and industry-favorable legislation. At the same time, evidence suggests that small firms innovate more than larger firms, and an aggressive firm-as-value perspective incentivizes early investment in new firms in an attempt to capture that ...

- Contributors
- Applegate, J M, Janssen, Marcus A, Hoetker, Glenn, et al.
- Created Date
- 2018

The most advanced social insects, the eusocial insects, form often large societies in which there is reproductive division of labor, queens and workers, have overlapping generations, and cooperative brood care where daughter workers remain in the nest with their queen mother and care for their siblings. The eusocial insects are composed of representative species of bees and wasps, and all species of ants and termites. Much is known about their organizational structure, but remains to be discovered. The success of social insects is dependent upon cooperative behavior and adaptive strategies shaped by natural selection that respond to internal or external ...

- Contributors
- Rodriguez Messan, Marisabel, Kang, Yun, Castillo-Chavez, Carlos, et al.
- Created Date
- 2018