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9,146 results on '"Young, Michael"'

151. Soil structure is an important omission in Earth System Models.

Author

Fatichi, Simone, Or, Dani, Walko, Robert, Vereecken, Harry, Young, Michael H, Ghezzehei, Teamrat A, Hengl, Tomislav, Kollet, Stefan, Agam, Nurit, and Avissar, Roni

Abstract

Most soil hydraulic information used in Earth System Models (ESMs) is derived from pedo-transfer functions that use easy-to-measure soil attributes to estimate hydraulic parameters. This parameterization relies heavily on soil texture, but overlooks the critical role of soil structure originated by soil biophysical activity. Soil structure omission is pervasive also in sampling and measurement methods used to train pedotransfer functions. Here we show how systematic inclusion of salient soil structural features of biophysical origin affect local and global hydrologic and climatic responses. Locally, including soil structure in models significantly alters infiltration-runoff partitioning and recharge in wet and vegetated regions. Globally, the coarse spatial resolution of ESMs and their inability to simulate intense and short rainfall events mask effects of soil structure on surface fluxes and climate. Results suggest that although soil structure affects local hydrologic response, its implications on global-scale climate remains elusive in current ESMs.

Published
2020

152. Federal Aviation Administration Vertiport Electrical Infrastructure Study

Author

Solanki, Bharatkumar, primary, Sanders, Peyton, additional, Miller, Eric, additional, Paudyal, Priti, additional, Rathod, Bhavesh, additional, Abraham, Sherin Ann, additional, Young, Michael, additional, Fernandes Tomon Avelino, Andre, additional, Padullaparti, Harsha Vardhana, additional, Cary, Scott, additional, Hallock, Chris, additional, Moriarty, Kristi, additional, Ellwood, Grant, additional, Wang, Jiyu, additional, Flores-Espino, Francisco, additional, Rane, Jayaraj, additional, Markel, Tony, additional, and Sanghvi, Anuj, additional

Published
2023
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161. Soil hydrology in the Earth system

Author

Vereecken, Harry, Amelung, Wulf, Bauke, Sara L., Bogena, Heye, Brüggemann, Nicolas, Montzka, Carsten, Vanderborght, Jan, Bechtold, Michel, Blöschl, Günter, Carminati, Andrea, Javaux, Mathieu, Konings, Alexandra G., Kusche, Jürgen, Neuweiler, Insa, Or, Dani, Steele-Dunne, Susan, Verhoef, Anne, Young, Michael, and Zhang, Yonggen

Published
2022
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169. Reaction Time

Author

Young, Michael E., Crumer, Angela, Leising, Kenneth, Section editor, Vonk, Jennifer, editor, and Shackelford, Todd K., editor

Published
2022
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176. Rainbow numbers for $x_1+x_2=kx_3$ in $\mathbb{Z}_n$

Author

Bevilacqua, Erin, King, Samuel, Kritschgau, Jürgen, Tait, Michael, Tebon, Suzannah, and Young, Michael

Subjects
Mathematics - Combinatorics, 05D10, 11B25, 11B30, 11B50, 11B75
Abstract

In this work, we investigate the fewest number of colors needed to guarantee a rainbow solution to the equation $x_1 + x_2 = k x_3$ in $\mathbb{Z}_n$. This value is called the Rainbow number and is denoted by $rb(\mathbb{Z}_n, k)$ for positive integer values of $n$ and $k$. We find that $rb(\mathbb{Z}_p, 1) = 4$ for all primes greater than $3$ and that $rb(\mathbb{Z}_n, 1)$ can be deterimined from the prime factorization of $n$. Furthermore, when $k$ is prime, $rb(\mathbb{Z}_n, k)$ can be determined from the prime factorization of $n$.

Published
2018

177. Lower Bounds for the Exponential Domination Number of $C_m \times C_n$

Author

Bozeman, Chassidy, Carlson, Joshua, Dairyko, Michael, Young, Derek, and Young, Michael

Subjects
Mathematics - Combinatorics
Abstract

A vertex $v$ in a porous exponential dominating set assigns weight $\left(\tfrac{1}{2}\right)^{dist(v,u)}$ to vertex $u$. A porous exponential dominating set of a graph $G$ is a subset of $V(G)$ such that every vertex in $V(G)$ has been assigned a sum weight of at least 1. In this paper the porous exponential dominating number, denoted by $\gamma_e^*(G)$, for the graph $G = C_m \times C_n$ is discussed. Anderson et. al. proved that $\frac{mn}{15.875}\le \gamma_e^*(C_m \times C_n) \le \frac{mn}{13}$ and conjectured that $\frac{mn}{13}$ is also the asymptotic lower bound. We use a linear programing approach to sharpen the lower bound to $\frac{mn}{13.7619 + \epsilon(m,n)}$.

Published
2018

178. Anti-van der Waerden numbers on Graphs

Author

Berikkyzy, Zhanar, Schulte, Alex, Sprangel, Elizabeth, Walker, Shanise, Warnberg, Nathan, and Young, Michael

Subjects
Mathematics - Combinatorics, 05C35, 05C15, 05C12, 05D05
Abstract

In this paper arithmetic progressions on the integers and the integers modulo n are extended to graphs. This allows for the definition of the anti-van der Waerden number of a graph. Much of the focus of this paper is on 3-term arithmetic progressions for which general bounds are obtained based on the radius and diameter of a graph. The general bounds are improved for trees and Cartesian products and exact values are determined for some classes of graphs. Larger k-term arithmetic progressions are considered and a connection between the Ramsey number of paths and the anti-van der Waerden number of graphs is established.

Published
2018

179. A linear programming method for exponential domination

Author

Dairyko, Michael and Young, Michael

Subjects
Mathematics - Combinatorics
Abstract

For a graph $G,$ the set $D \subseteq V(G)$ is a porous exponential dominating set if $1 \le \sum_{d \in D} \left( 2 \right)^{1-dist(d,v)}$ for every $v \in V(G),$ where $dist(d,v)$ denotes the length of the shortest $dv$ path. The porous exponential dominating number of $G,$ denoted $\gamma_e^*(G),$ is the minimum cardinality of a porous exponential dominating set. For any graph $G,$ a technique is derived to determine a lower bound for $\gamma_e^*(G).$ Specifically for a grid graph $H,$ linear programing is used to sharpen bound found through the lower bound technique. Lower and upper bounds are determined for the porous exponential domination number of the King Grid $\mathcal{K_n},$ the Slant Grid $\mathcal{S_n},$ and the $n$-dimensional hypercube $Q_n.$

Published
2018

180. Anti-Ramsey Multiplicities

Author

De Silva, Jessica, Si, Xiang, Tait, Michael, Tunçbilek, Yunus, Yang, Ruifan, and Young, Michael

Subjects
Mathematics - Combinatorics, 05C15, 05D10, 05A16
Abstract

The Ramsey multiplicity constant of a graph $H$ is the minimum proportion of copies of $H$ in the complete graph which are monochromatic under an edge-coloring of $K_n$ as $n$ goes to infinity. Graphs for which this minimum is asymptotically achieved by taking a random coloring are called {\em common}, and common graphs have been studied extensively, leading to the Burr-Rosta conjecture and Sidorenko's conjecture. Erd\H{o}s and S\'os asked what the maximum number of rainbow triangles is in a $3$-coloring of the edge set of $K_n$, a rainbow version of the Ramsey multiplicity question. A graph $H$ is called $r$-anti-common if the maximum proportion of rainbow copies of $H$ in any $r$-coloring of $E(K_n)$ is asymptotically achieved by taking a random coloring. In this paper, we investigate anti-Ramsey multiplicity for several families of graphs. We determine classes of graphs which are either anti-common or not. Some of these classes follow the same behavior as the monochromatic case, but some of them do not. In particular the rainbow equivalent of Sidorenko's conjecture, that all bipartite graphs are anti-common, is false., Comment: 14 pages, 2 figures

Published
2018

182. On exponential domination of the consecutive circulant graph

Author

Dairyko, Michael and Young, Michael

Subjects
Mathematics - Combinatorics, 05C69, 05C12
Abstract

For a graph $G,$ we consider $D \subset V(G)$ to be a porous exponential dominating set if $1\le \sum_{d \in D}$ $\left( \frac{1}{2} \right)^{\text{dist}(d,v) -1}$ for every $v \in V(G),$ where dist$(d,v)$ denotes the length of the smallest $dv$ path. Similarly, $D \subset V(G)$ is a non-porous exponential dominating set is $1\le \sum_{d \in D} \left( \frac{1}{2} \right)^{\overline{\text{dist}}(d,v) -1}$ for every $v \in V(G),$ where $\overline{\text{dist}}(d,v)$ represents the length of the shortest $dv$ path with no internal vertices in $D.$ The porous and non-porous exponential dominating number of $G,$ denoted $\gamma_e^*(G)$ and $\gamma_e(G),$ are the minimum cardinality of a porous and non-porous exponential dominating set, respectively. The consecutive circulant graph, $C_{n, [\ell]},$ is the set of $n$ vertices such that vertex $v$ is adjacent to $v \pm i \mod n$ for each $i \in [\ell].$ In this paper we show $\gamma_e(C_{n, [\ell]}) = \gamma_e^*(C_{n, [\ell]}) = \left\lceil \tfrac{n}{3\ell +1} \right\rceil.$

Published
2017

183. More Isn't Always Better: When Metacognitive Prompts Are Misleading

Author

Vangsness, Lisa and Young, Michael E.

Abstract

Accurate metacognitive monitoring improves performance in a variety of naturalistic contexts. However, the laboratory contexts used to study metacognition differ from naturalistic environments in important ways. Specifically, laboratory experiments require learners to make repeated, overt judgments that are thought to reflect underlying metacognitive processes. We conducted two research studies to determine how the frequency of overt prompts affects cue use, judgment accuracy, and performance. This was accomplished by manipulating the frequency with which participants made judgements of difficulty (JODs) while completing a primary task. We found that participants who made frequent overt prompts attended more strongly to peripheral cues than to central cues. Frequent overt prompts also had differing effects on performance and judgment accuracy: they reduced metacognitive accuracy in a visual search task (Experiment 1) and performance on a standardized exam (Experiment 2). Although our experiments do not identify a clear, causal agent that drives differences in performance and judgment accuracy, these results illustrate the interesting relationship between cue use and metacognitive monitoring.

Published
2021
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187. TPACK-L: Teachers' Pedagogical Design Thinking for the Wise Integration of Technology

Author

Choi, Beomkyu and Young, Michael F.

Abstract

Wise technology integration is not simply a matter of selecting to use, but a matter of how to effectively use technology in context within the curriculum. Technology integration cognition should thus be thought of as pedagogical design thinking that involves critically examining the affordances of learning technologies and then strategically applying them to teach particular subject matter ideas within a specific classroom context. To better describe such teacher cognition concerning technology integration, this study proposes TPACK-L, an expanded framework for teachers' technology integration knowledge, by adding the principles of learning theory to the existing TPACK framework, and delineates what this pedagogical design thinking looks like in the context of a specially designed card game, "CARD-tamen"™. This study also addresses the issue of how to measure technology cognition in-the-moment during card play. Situated cognition served as the framework to assess using card gameplay in context.

Published
2021
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194. 'For Allah created the English mad, the maddest of all mankind!' : the mental health of the British in Colonial India, 1900-1947

Author

Young, Michael and Ellis, Rob

Subjects
362.2, BF Psychology, R Medicine (General)
Abstract

The thesis investigates the theory that there were many physical and social factors inherent in the lives of the British in colonial India in the twentieth century which predisposed some of them to mental illness. It seeks to learn more about those individuals who became mentally distressed during their service to the Raj and the treatment they received. The study begins with an interrogation of the literature of the history of modern Western psychiatry and its relevance to colonial India between 1900 and 1947. With the use of contemporaneous text books and Indian professional medical journals it explores how psychiatry was implemented in the sub-continent. These considerations are followed by an exploration of the physical and social determinants of stress in such areas as climate and topography. It identifies the stressors associated with the artificial and archaic society of Britons in India, who are shown to be an ethnic minority determined to preserve their privileged position. The use of the cultural web, an investigative tool adapted from the study of organisational change, illustrates how the colonial rulers were incapable of changing their lifestyle as national and international developments began to impact on them as a community. Evidence is provided showing how the profession of psychiatric nursing was generally ignored by the colonial nursing establishment and often disparaged by doctors. Previously unseen medical case records from the European Mental Hospital at Ranchi in northern India give insight into the practice of psychiatrists and their attitudes to their patients. It identifies the rapidity with which methods of treatment newly developed in Europe were implemented at the hospital. The thesis concludes that there were many stressful factors in British life in colonial India which could lead to mental illness and identifies several topics suitable for further academic research. It also shows that the European Mental Hospital in India was in the forefront of international psychiatric practice in the 1920s and 1930s.

Published
2018

198. The inverse eigenvalue problem of a graph: Multiplicities and minors

Author

Barrett, Wayne, Butler, Steve, Fallat, Shaun M., Hall, H. Tracy, Hogben, Leslie, Lin, Jephian C. -H., Shader, Bryan L., and Young, Michael

Subjects
Mathematics - Combinatorics, 05C83, 05C50, 15A18, 15A29, 26B10, 58C15
Abstract

The inverse eigenvalue problem of a given graph $G$ is to determine all possible spectra of real symmetric matrices whose off-diagonal entries are governed by the adjacencies in $G$. Barrett et al. introduced the Strong Spectral Property (SSP) and the Strong Multiplicity Property (SMP) in [8]. In that paper it was shown that if a graph has a matrix with the SSP (or the SMP) then a supergraph has a matrix with the same spectrum (or ordered multiplicity list) augmented with simple eigenvalues if necessary, that is, subgraph monotonicity. In this paper we extend this to a form of minor monotonicity, with restrictions on where the new eigenvalues appear. These ideas are applied to solve the inverse eigenvalue problem for all graphs of order five, and to characterize forbidden minors of graphs having at most one multiple eigenvalue.

Published
2017

199. Polychromatic Colorings on the Integers

Author

Axenovich, Maria, Goldwasser, John, Lidický, Bernard, Martin, Ryan R., Offner, David, Talbot, John, and Young, Michael

Subjects
Mathematics - Combinatorics
Abstract

We show that for any set $S\subseteq \mathbb{Z}$, $|S|=4$ there exists a 3-coloring of $\mathbb{Z}$ in which every translate of $S$ receives all three colors. This implies that $S$ has a codensity of at most $1/3$, proving a conjecture of Newman [D. J. Newman, Complements of finite sets of integers, Michigan Math. J. 14 (1967) 481--486]. We also consider related questions in $\mathbb{Z}^d$, $d\geq 2$., Comment: 16 pages, improved presentation

Published
2017

200. The relationship between $k$-forcing and $k$-power domination

Author

Ferrero, Daniela, Hogben, Leslie, Kenter, Franklin H. J., and Young, Michael

Subjects
Mathematics - Combinatorics, 05C69, 05C50
Abstract

Zero forcing and power domination are iterative processes on graphs where an initial set of vertices are observed, and additional vertices become observed based on some rules. In both cases, the goal is to eventually observe the entire graph using the fewest number of initial vertices. Chang et al. introduced $k$-power domination in [Generalized power domination in graphs, {\it Discrete Applied Math.} 160 (2012) 1691-1698] as a generalization of power domination and standard graph domination. Independently, Amos et al. defined $k$-forcing in [Upper bounds on the $k$-forcing number of a graph, {\it Discrete Applied Math.} 181 (2015) 1-10] to generalize zero forcing. In this paper, we combine the study of $k$-forcing and $k$-power domination, providing a new approach to analyze both processes. We give a relationship between the $k$-forcing and the $k$-power domination numbers of a graph that bounds one in terms of the other. We also obtain results using the contraction of subgraphs that allow the parallel computation of $k$-forcing and $k$-power dominating sets.

Published
2017

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