Improving Transformational Teaching and Learning by Advancing Higher Education Feedback-Based Dialogues at Texas A&M University

Feedback mechanisms are critical to iteratively improving most societal systems, and yet there is minimal documentation on the best practices of leveraging feedback to improve teaching and learning in higher education. We attest that facilitated dialogues have the potential to start conversations relevant to improving policy that otherwise would not transpire. In higher education, facilitated dialogues between students, faculty, staff, and administration provide a unique face-to-face opportunity for all participants to provide feedback to one another on real-time institutional strengths and weaknesses. More specifically, facilitated dialogues have the potential to start a conversation on improving the learning in higher education. This work notes the theory facilitated dialogues and offers discussion on the long-term potential for such conversations to serve as a medium for iterative feedback in larger societal systems. Further, this thesis documents our development of a facilitated dialogue, The Student-Faculty Dialogue, which will act as a plenary event at Texas A&M’s inaugural Transformational Teaching and Learning Conference on April 17, 2018

Common View Time Transfer Using Worldwide GPS and DMA Monitor Stations

Analysis of the on-orbit Navstar clocks and the Global Positioning System (GPS) monitor station reference clocks is performed by the Naval Research Laboratory using both broadcast and postprocessed precise ephemerides. The precise ephemerides are produced by the Defense Mapping Agency (DMA) for each of the GPS space vehicles from pseudo-range measurements collected at five GPS and at five DMA monitor stations spaced around the world. Recently, DMA established an additional site co-located with the US Naval Observatory precise time site. The time reference for the new DMA site is the DoD Master Clock. Now, for the first time, it is possible to transfer time every 15 minutes via common view from the DoD Master Clock to the 11 GPS and DMA monitor stations. The estimated precision of a single common-view time transfer measurement taken over a 15-minute interval was between 1.4 and 2.7 nanoseconds. Using the measurements from all Navstar space vehicles in common view during the 15-minute interval, typically 3-7 space vehicles, improved the estimate of the precision to between 0.65 and 1.13 nanoseconds. The mean phase error obtained from closure of the time transfer around the world using the 11 monitor stations and the 25 space vehicle clocks over a period of 4 months had a magnitude of 31 picoseconds. Analysis of the low noise time transfer from the DoD Master Clock to each of the monitor stations yields not only the bias in the time of the reference clock, but also focuses attention on structure in the behaviour of the reference clock not previously seen. Furthermore, the time transfer provides a a uniformly sampled database of 15-minute measurements that make possible, for the first time, the direct and exhaustive computation of the frequency stability of the monitor station reference clocks. To lend perspective to the analysis, a summary is given of the discontinuities in phase and frequency that occurred in the reference clock at the Master Control Station during the period covered by the analysis

Revealing kinetically tuned atomic pathways for interfacial strain relaxation

Strain at interfaces may profoundly impact the microstructure and properties of materials; thus, it is a major consideration when designing and engineering materials. Dislocation formation is a commonly known mechanism to release mismatch strain at solid-solid interfaces. However, it is still unclear about how materials accommodate interfacial strain under drastically accelerated structural transformation kinetics, since it is extremely challenging to directly observe the atomic structure evolution of fast-propagating interfaces. Utilizing liquid phase transmission electron microscopy (TEM), we have achieved atomic-scale imaging of hydrogen-induced phase transformations of palladium nanocrystals with different transformation speeds. Our observation reveals that the fast phase transformation occurs with an expanded interface of mixed $\alpha$- and $\beta$-$\mathrm{PdH}_x$ phases, and tilting of (020) planes to accommodate mismatch strain. In contrast, slow phase transformations lead to sharp interfaces with slipping misfit dislocations. Our kinetic Monte Carlo simulations show that fast phase transformation pushes the system far-from-equilibrium, generically roughening the interface; however, a smooth boundary minimizes strain near-equilibrium. Unveiling the atomic pathways of transformations from near-equilibrium to far-from-equilibrium, which was previously possible only computationally, this work holds significant implications for engineering microstructure of materials through modulating solid-solid transformations in a wide range of kinetics.Comment: 6 pages, 4 figures, plus Methods and Supplementary Note

(Re)imagining the ‘backstreet’:Anti-abortion campaigning against decriminalisation in the UK

The risk of death or serious injury from ‘backstreet abortions’ was an important narrative in the 20th century campaign to liberalise abortion in the UK. Since then, clinical developments have reduced the overall health risks of abortion, and international health organisations have been set up to provide cross-border, medically safe abortions to places where it is unlawful, offering advice and, where possible, supplying abortion pills. These changes mean that pro-choice campaigns in Europe have often moved away from the risks of ‘backstreet abortions’ as a central narrative when campaigning for abortion liberalisation. In contrast, in the UK, anti-abortion activists are increasingly using ideas about ‘backstreet abortions’ to resist further liberalisation. These claims can be seen to fit within a broader shift from morals to risk within moral regulation campaigns and build on anti-abortion messages framed as being ‘pro-women’, with anti-abortion activists claiming to be the ‘savers’ of women. Using a parliamentary debate as a case study, this article will illustrate these trends and show how the ‘backstreet’ metaphor within anti-abortion campaigns builds on three interconnected themes of ‘abortion-as-harmful’, ‘abortion industry’, and ‘abortion culture’. This article will argue that the anti-abortion movement’s adoption of risk-based narratives contains unresolved contradictions due to the underlying moral basis of their position. These are exacerbated by the need, in this case, to defend legislation that they fundamentally disagree with. Moreover, their attempts to construct identifiable ‘harms’ and vulnerable ‘victims’, which are components of moral regulation campaigns, are unlikely to be convincing in the context of widespread public support for abortion

Environment Orientation : a structured simulation approach for agent-based complex systems

Complex systems are collections of independent agents interacting with each other and with their environment to produce emergent behaviour. Agent-based computer simulation is one of the main ways of studying complex systems. A naive approach to such simulation can fare poorly, due to large communication overhead, and due to the scope for deadlock between the interacting agents sharing a computational platform. Agent interaction can instead be considered entirely from the point of view of the environment(s) within which the agents interact. Structuring a simulation using such Environment Orientation leads to a simulation that reduces communication overhead, that is effectively deadlock-free, and yet still behaves in the manner required. Additionally the Environment Orientation architecture eases the development of more sophisticated large-scale simulations, with multiple kinds of complex agents, situated in and interacting with multiple kinds of environments. We describe the Environment Orientation simulation architecture. We report on a number of experiments that demonstrate the effectiveness of the Environment Orientation approach: a simple flocking system, a flocking system with multiple sensory environments, and a flocking system in an external environment

The read-across hypothesis and environmental risk assessment of pharmaceuticals

This article is made available through the Brunel Open Access Publishing Fund. Copyright © 2013 American Chemical Society.Pharmaceuticals in the environment have received increased attention over the past decade, as they are ubiquitous in rivers and waterways. Concentrations are in sub-ng to low μg/L, well below acute toxic levels, but there are uncertainties regarding the effects of chronic exposures and there is a need to prioritise which pharmaceuticals may be of concern. The read-across hypothesis stipulates that a drug will have an effect in non-target organisms only if the molecular targets such as receptors and enzymes have been conserved, resulting in a (specific) pharmacological effect only if plasma concentrations are similar to human therapeutic concentrations. If this holds true for different classes of pharmaceuticals, it should be possible to predict the potential environmental impact from information obtained during the drug development process. This paper critically reviews the evidence for read-across, and finds that few studies include plasma concentrations and mode of action based effects. Thus, despite a large number of apparently relevant papers and a general acceptance of the hypothesis, there is an absence of documented evidence. There is a need for large-scale studies to generate robust data for testing the read-across hypothesis and developing predictive models, the only feasible approach to protecting the environment.BBSRC Industrial Partnership Award BB/ I00646X/1 and BBSRC Industrial CASE Partnership Studentship BB/I53257X/1 with AstraZeneca Safety Health and Environment Research Programme

Effects of Different Up-Dosing Regimens for Hymenoptera Venom Immunotherapy on Serum CTLA-4 and IL-10

BACKGROUND: Cytotoxic T lymphocyte associated antigen-4 (CTLA-4) is involved in the activation pathways of T lymphocytes. It has been shown that the circulating form of CTLA-4 is elevated in patients with hymenoptera allergy and can be down regulated by immunotherapy. OBJECTIVE: to assess the effects on CTLA-4 of venom immunotherapy, given with different induction protocols: conventional (6 weeks), rush (3 days) or ultra rush (1 day). METHODS: Sera from patients with hymenoptera allergy were collected at baseline and at the end of the induction phase. CTLA-4 and IL-10 were assayed in the same samples. A subset of patients were assayed also after 12 months of VIT maintenance. RESULTS: Ninety-four patients were studied. Of them, 50 underwent the conventional induction, 20 the rush and 24 the ultra-rush. Soluble CTLA-4 was detectable in all patients at baseline, and significantly decreased at the end of the induction, irrespective of its duration. Of note, a significant decrease of sCTLA-4 could be seen already at 24 hours. In parallel, IL-10 significantly increased at the end of the induction. At 12 months, sCTLA-4 remained low, whereas IL-10 returned to the baseline values. CONCLUSIONS: Serum CTLA4 is an early marker of the immunological effects of venom immunotherapy, and its changes persist after one year of maintenance treatment