1,172 research outputs found

    Reading: Amit Majmudar

    No full text
    Because of COVID-19 this event is canceled. Amit Majmudar, a multi-genre author and translator, offers a Sacred Arts Festival reading that explores the concept of Building Bridges. Co-sponsored by the Department of English and the Sacred Arts Festival

    Author Index

    No full text
    Author Inde

    Exploring young students creativity: The effect of model eliciting activities

    No full text
    The aim of this paper is to show how engaging students in real-life mathematical situations can stimulate their mathematical creative thinking. We analyzed the mathematical modeling of two girls, aged 10 and 13 years, as they worked on an authentic task involving the selection of a track team. The girls displayed several modeling cycles that revealed their thinking processes, as well as cognitive and affective features that may serve as the foundation for a methodology that uses model-eliciting activities to promote the mathematical creative process

    Supplementary Material, SupplementaryMaterial - Prenatal Growth Patterns and Birthweight Are Associated With Differential DNA Methylation and Gene Expression of Cardiometabolic Risk Genes in Human Placentas: A Discovery-Based Approach

    No full text
    Supplementary Material, SupplementaryMaterial for Prenatal Growth Patterns and Birthweight Are Associated With Differential DNA Methylation and Gene Expression of Cardiometabolic Risk Genes in Human Placentas: A Discovery-Based Approach by Pao-Yang Chen, Alison Chu, Wen-Wei Liao, Liudmilla Rubbi, Carla Janzen, Fei-Man Hsu, Shanthie Thamotharan, Amit Ganguly, Larry Lam, Dennis Montoya, Matteo Pellegrini, and Sherin U. Devaskar in Reproductive Sciences </p

    Reviewing the Author-Function in the Age of Wikipedia

    No full text
    In Reviewing the Author-Function in the Age of Wikipedia, Amit Ray and Erhardt Graeff examine how wiki technology challenges traditional concepts of authorship and authority in knowledge production. The authors build on poststructuralist theory, particularly Roland Barthes\u27s Death of the Author and Michel Foucault\u27s concept of the author-function, to analyze how wikis destabilize individual authorship in favor of collaborative, community-driven content creation. The essay argues that wikis represent a fundamental shift from the Romantic notion of the solitary author-genius to what they term the wiki writing process —a dynamic system where traditional roles of reader, writer, and editor blur into a unified community of users. Using Wikipedia as a primary case study, the authors demonstrate how the platform\u27s structure (article, discussion, and history pages) creates a digital palimpsest that archives all contributions while enabling continuous revision. Through analysis of Wikipedia\u27s editing patterns and community oversight mechanisms, Ray and Graeff show how wikis embody poststructuralist principles in practice, creating what they call serial collaborations that exist in perpetual flux. The authors conclude that wikis represent an evolved form of textual production that realizes Foucault\u27s vision of discourse freed from traditional authorial constraints, offering new possibilities for collaborative knowledge creation while challenging established notions of intellectual authority and ownership

    Intra- and inter-server smart task scheduling for profit and energy optimization of HPC data centers

    No full text
    Servers in a data center are underutilized due to over-provisioning, which contributes heavily toward the high-power consumption of the data centers. Recent research in optimizing the energy consumption of High Performance Computing (HPC) data centers mostly focuses on consolidation of Virtual Machines (VMs) and using dynamic voltage and frequency scaling (DVFS). These approaches are inherently hardware-based, are frequently unique to individual systems, and often use simulation due to lack of access to HPC data centers. Other approaches require profiling information on the jobs in the HPC system to be available before run-time. In this paper, we propose a reinforcement learning based approach, which jointly optimizes profit and energy in the allocation of jobs to available resources, without the need for such prior information. The approach is implemented in a software scheduler used to allocate real applications from the Princeton Application Repository for Shared-Memory Computers (PARSEC) benchmark suite to a number of hardware nodes realized with Odroid-XU3 boards. Experiments show that the proposed approach increases the profit earned by 40% while simultaneously reducing energy consumption by 20% when compared to a heuristic-based approach. We also present a network-aware server consolidation algorithm called Bandwidth-Constrained Consolidation (BCC), for HPC data centers which can address the under-utilization problem of the servers. Our experiments show that the BCC consolidation technique can reduce the power consumption of a data center by up-to 37%

    The Architecture of India

    No full text
    Book review of "India: Modern Architecture in History" and author interview with Peter Scriver and Amit Srivastav

    The complex interplay between mechanical forces, tissue response and individual susceptibility to pressure ulcers

    No full text
    Objective: The most recent edition of the International Clinical Practice Guideline for the Prevention and Treatment of Pressure Ulcers/Injuries was released in 2019. Shortly after, in 2020, the first edition of the SECURE Prevention expert panel report, focusing on device-related pressure ulcers/injuries, was published as a special issue in the Journal of Wound Care. A second edition followed in 2022. This article presents a comprehensive summary of the current understanding of the causes of pressure ulcers/injuries (PU/Is) as detailed in these globally recognised consensus documents. Method: The literature reviewed in this summary specifically addresses the impact of prolonged soft tissue deformations on the viability of cells and tissues in the context of PU/Is related to bodyweight or medical devices. Results: Prolonged soft tissue deformations initially result in cell death and tissue damage on a microscopic scale, potentially leading to development of clinical PU/Is overtime. That is, localised high tissue deformations or mechanical stress concentrations can cause microscopic damage within minutes, but it may take several hours of continued mechanical loading for this initial cell and tissue damage to become visible and clinically noticeable. Superficial tissue damage primarily stems from excessive shear loading on fragile or vulnerable skin. In contrast, deeper PU/Is, known as deep tissue injuries, typically arise from stress concentrations in soft tissues at body regions over sharp or curved bony prominences, or under stiff medical devices in prolonged contact with the skin. Conclusion: This review promotes deeper understanding of the pathophysiology of PU/Is, indicating that their primary prevention should focus on alleviating the exposure of cells and tissues to stress concentrations. This goal can be achieved either by reducing the intensity of stress concentrations in soft tissues, or by decreasing the exposure time of soft tissues to such stress concentrations. Declaration of interest: The author has no conflicts of interest

    Advancing Health Research in Humanitarian Crises

    No full text
    AUTHOR AFFILIATION: Amit Mistry, Fogarty International Center, National Institutes of Health (NIH), United States, [email protected] media can be accessed here: http://streaming.osu.edu/knowledgebank/PREA/PREA_Session7A_Mistry_20190325.mp4This presentation identifies the mission of the Fogarty Center at the National Institutes of Health. Within this, the Advancing Health Research in Humanitarian Crises program has been initiated recently. Specific projects within this program will be described, as well as resources and funding streams within Fogarty. Research ethics is an important cross-cutting strand across these projects

    Leaders of the field: What does the future hold for single molecule technology?

    No full text
    In recent years, single molecule technology has experienced a rapid growth, with exciting developments in fundamental research and real-world applications. Detecting and studying biological phenomena on thesingle molecule level requires a unique synergy between researchers working on instrumentation, physics, and the life sciences. In the iScience special issue ‘‘Single Molecule Technology – From Biotechnology toBiomedical Applications’’, guest edited by Amit Meller and Chirlmin Joo (Figure 1), we are highlighting a variety of research on nanopore technology, single molecule fluorescence, and a selection of other ultra-sensitive detection methods. More content in the special issue can be found here: https://www.sciencedirect.com/journal/iscience/special-issue/10PGSBV55N0. The guest editors in this backstory share their thoughts on what is currently exciting in the field, and the advances they think will make an impact in the near future.BN/Chirlmin Joo La
    corecore