302 research outputs found
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Socially-integrated resilience in building-level water networks using smart microgrid+net
Environmental change and natural events can impact on multiple dimensions of human life; economic, social, political, physical (built) and natural (ecosystems) environments. Water distribution networks cover both the built and natural realms and are as such inherently vulnerable to accidental or deliberate physical, natural, chemical, or biological threats. An example of such threats include flooding. The damage to water networks from flooding at the building level can include disrupted supply, pipe damage, sink and sewer overflows, fittings and appliance malfunctions etc. as well as the consequential socio-economic loss and distress. It has also been highlighted that the cost of damage caused by disasters including flooding can be correlated to the warning-time given before it occurs. Therefore, contiguous and continuous preparedness is essential to sustain disaster resilience.
This paper presents an early stage review to: 1. Understand the challenges and opportunities posed by disaster risks to critical infrastructure at the building level. 2. Examine the role and importance of early warnings within the smart systems context to promote anticipatory preparedness and reduce physical, economic, environmental and social vulnerability 3. Review the opportunities provided by smart water microgrid/net to deliver such an early warning system and 4. Define the basis for a socially-integrated framework for resilience in building water networks based on smart water micro grids and micronets. The objective is to establish the theoretical approach for smart system integration for risk mitigation in water networks at the building level. Also, to explore the importance and scope integration of other social-political dimensions within such framework and associated solutions. The findings will inform further studies to address the gaps in understanding the disaster risks in micro water infrastructure e.g. flooding, and; to develop strategies and systems to strengthen disaster preparedness for effective response and anticipatory action for such risks
SATTY: Word Sense Induction Application in Web Search Clustering
The aim of this paper is to perform Word Sense induction (WSI); which clusters web search results and produces a diversified list of search results. It describes the WSI system developed for Task 11 of SemEval -2013. This paper implements the idea of monotone submodular function optimization using greedy algorithm
Repurposing anticancer drugs for the management of COVID-19
Since its outbreak in the last December, coronavirus disease 2019 (COVID-19) caused by SARS-CoV-2 has rapidly spread worldwide at a pandemic proportion and thus is regarded as a global public health emergency. The existing therapeutic options for COVID-19 beyond the intensive supportive care are limited, with an undefined or modest efficacy reported so far. Drug repurposing represents an enthusiastic mechanism to use approved drugs outside the scope of their original indication and accelerate the discovery of new therapeutic options. With the emergence of COVID-19, drug repurposing has been largely applied for early clinical testing. In this review, we discuss some repurposed anticancer drugs for the treatment of COVID-19, which are under investigation in clinical trials or proposed for the clinical testing.info:eu-repo/semantics/publishedVersio
Global landscape of the attack of predatory journals in Oncology
Purpose Open-access publishing expanded opportunities to give visibility to research results but was accompanied by the proliferation of predatory journals (PJos) that offer expedited publishing but potentially compromise the integrity of research and peer review. To our knowledge, to date, there is no comprehensive global study on the impact of PJos in the field of oncology.
Materials and Methods A 29 question-based cross-sectional survey was developed to explore knowledge and practices of predatory publishing and analyzed using descriptive statistics and binary logistic regression.
Results Four hundred and twenty-six complete responses to the survey were reported. Almost half of the responders reported feeling pressure to publish from supervisors, institutions, and funding and regulatory agencies. The majority of authors were contacted by PJos through email solicitations (67.8%), with fewer using social networks (31%). In total, 13.4% of the responders confirmed past publications on PJo, convinced by fast editorial decision time, low article-processing charges, limited peer review, and for the promise of academic boost in short time. Over half of the participants were not aware of PJo detection tools. We developed a multivariable model to understand the determinants to publish in PJos, showing a significant correlation of practicing oncology in low- and middle-income countries (LMICs) and predatory publishing (odds ratio [OR], 2.02 [95% CI, 1.01 to 4.03]; P = .04). Having previous experience in academic publishing was not protective (OR, 3.81 [95% CI, 1.06 to 13.62]; P = .03). Suggestions for interventions included educational workshops, increasing awareness through social networks, enhanced research funding in LMICs, surveillance by supervisors, and implementation of institutional actions against responsible parties.
Conclusion The prevalence of predatory publishing poses an alarming problem in the field of oncology, globally. Our survey identified actionable risk factors that may contribute to vulnerability to PJos and inform guidance to enhance research capacity broadly
Natural convection within water-zno nanofluid-filled hemispherical enclosure with a cubic electronic device
This work qualifies and quantifies the nanofluidic natural
convective phenomena occurring in a hemispherical enclosure
used for electronics applications. This cavity consists of a disk
thermally insulated on its rear face, an active cube centered on
the disk which generates a constant heat flux and an isothermal
dome. The disc of the cavity remains horizontal while its dome
is oriented either upwards or downwards. The considered
nanofluid is a mixture of water with metallic ZnO nanoparticles.
In order to examine the influence of these nanoparticles on the
natural convective heat transfer, three values of the volume
fraction considered: 0% (pure water), 1% and 5%. The
dimensionless governing system of the problem under
consideration is solved by means of the control volume method
in combination with the SIMPLE algorithm. The structured mesh
is composed of triangular surfacic elements and tetrahedral in the
volumic domain. Temperature and velocity distributions are
presented for some configurations and convective heat transfer
is examined for all processed ones. The natural convective heat
transfer is quantified by means of Nusselt-Rayleigh-Prandtl
correlations.Papers presented at the 13th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, Portoroz, Slovenia on 17-19 July 2017 .International centre for heat and mass transfer.American society of thermal and fluids engineers
CodePlan: Repository-level Coding using LLMs and Planning
Software engineering activities such as package migration, fixing errors
reports from static analysis or testing, and adding type annotations or other
specifications to a codebase, involve pervasively editing the entire repository
of code. We formulate these activities as repository-level coding tasks.
Recent tools like GitHub Copilot, which are powered by Large Language Models
(LLMs), have succeeded in offering high-quality solutions to localized coding
problems. Repository-level coding tasks are more involved and cannot be solved
directly using LLMs, since code within a repository is inter-dependent and the
entire repository may be too large to fit into the prompt. We frame
repository-level coding as a planning problem and present a task-agnostic
framework, called CodePlan to solve it. CodePlan synthesizes a multi-step chain
of edits (plan), where each step results in a call to an LLM on a code location
with context derived from the entire repository, previous code changes and
task-specific instructions. CodePlan is based on a novel combination of an
incremental dependency analysis, a change may-impact analysis and an adaptive
planning algorithm.
We evaluate the effectiveness of CodePlan on two repository-level tasks:
package migration (C#) and temporal code edits (Python). Each task is evaluated
on multiple code repositories, each of which requires inter-dependent changes
to many files (between 2-97 files). Coding tasks of this level of complexity
have not been automated using LLMs before. Our results show that CodePlan has
better match with the ground truth compared to baselines. CodePlan is able to
get 5/6 repositories to pass the validity checks (e.g., to build without errors
and make correct code edits) whereas the baselines (without planning but with
the same type of contextual information as CodePlan) cannot get any of the
repositories to pass them
Modeling and Experimental Study on Characterization of Micromachined Thermal Gas Inertial Sensors
Micromachined thermal gas inertial sensors based on heat convection are novel devices that compared with conventional micromachined inertial sensors offer the advantages of simple structures, easy fabrication, high shock resistance and good reliability by virtue of using a gaseous medium instead of a mechanical proof mass as key moving and sensing elements. This paper presents an analytical modeling for a micromachined thermal gas gyroscope integrated with signal conditioning. A simplified spring-damping model is utilized to characterize the behavior of the sensor. The model relies on the use of the fluid mechanics and heat transfer fundamentals and is validated using experimental data obtained from a test-device and simulation. Furthermore, the nonideal issues of the sensor are addressed from both the theoretical and experimental points of view. The nonlinear behavior demonstrated in experimental measurements is analyzed based on the model. It is concluded that the sources of nonlinearity are mainly attributable to the variable stiffness of the sensor system and the structural asymmetry due to nonideal fabrication
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