699 research outputs found

    Low-energy standby-sparing for hard real-time systems

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    Time-redundancy techniques are commonly used in real-time systems to achieve fault tolerance without incurring high energy overhead. However, reliability requirements of hard real-time systems that are used in safety-critical applications are so stringent that time-redundancy techniques are sometimes unable to achieve them. Standby sparing as a hardware redundancy technique can be used to meet high reliability requirements of safety-critical applications. However, conventional standby-sparing techniques are not suitable for low-energy hard real-time systems as they either impose considerable energy overheads or are not proper for hard timing constraints. In this paper we provide a technique to use standby sparing for hard real-time systems with limited energy budgets. The principal contribution of this work is an online energy management technique which is specifically developed for standby-sparing systems that are used in hard real-time applications. This technique operates at runtime and exploits dynamic slacks to reduce the energy consumption while guaranteeing hard deadlines. We compared the low-energy standby-sparing (LESS) system with a low-energy time redundancy system (from a previous work). The results show that for relaxed time constraints, the LESS system is more reliable and provides about 26% energy saving as compared to the time-redundancy system. For tight deadlines when the time redundancy system is not sufficiently reliable (for safety-critical application), the LESS system preserves its reliability but with about 49% more energy consumptio

    Evaluation and selection of thin-layer models for drying kinetics of apricot (cv. NASIRY)

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    E. Mirzaee, S. Rafiee, A. Keyhani(Agricultural Machinery Engineering Department, Faculty of Agricultural Engineering and Technology, University of Tehran, Karaj, Iran) Abstract: This paper presents the thin layer drying behavior of apricot (cv. NASIRY) at the air temperatures of 40ºC, 50ºC, 60ºC, 70ºC and air velocity of 1m/s and 2 m/s.  In order to select a suitable form of the drying curve, 12 different thin layer drying models were fitted to experimental data.  Fick’s second law was used as a major equation to calculate the moisture diffusivity with some simplification.  The high values of coefficient of determination and the low values of reduced chi-square and root mean square error indicated that the Logarithmic model and the Midilli et al. model could satisfactorily describe the drying curve of apricot for drying air velocity of 1m/s and 2 m/s, respectively.  According to the research results the calculated value of effective moisture diffusivity varied from 1.78×10-10–5.11×10-10 m2/s and the value of activation energy varied from a minimum of 24.01 kJ/mol to a maximum of 25.00 kJ/mol.Keywords: apricot, thin layer drying, effective moisture diffusivity, activation energy Citation: E. Mirzaee, S. Rafiee, A. Keyhani.  Evaluation and selection of thin-layer models for drying kinetics of apricot (cv. NASIRY).  Agric Eng Int: CIGR Journal, 2010, 12(2): 111-116.  &nbsp

    Suicide as a Passage Through Silent Issues: A Case Study of Suicide Attempt Survivors in Tehran Zeinab Kouchakian Alireza Kaldi Alireza Mohsenitabrizi

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    Suicide as a Passage Through Silent Issues: A Case Study of Suicide Attempt Survivors in Tehran Zeinab Kouchakian[1]  ,  Alireza Kaldi[2]  ,  Alireza Mohsenitabrizi[3] Received:  06/4/2018      Accepted: 22/12/2018   Abstract                                                               Suicide, as a conscious action in hurting oneself causing death, is among the social issues of human society that is increasing day by day. Suicide epidemiological studies inIran have shown that attempting suicide and committing an act of suicide is increasing. Using a qualitative approach, and based on the grounded theory of the social and cultural reasons behind suicide attempt, the current study aims to investigate the interaction between the person who commits suicide and his/her family, group and society as well as its relationship with suicide attempt. Through this, the present study seeks to find a more vivid image of the relationship between [1]. Ph.D. student of Cultural Sociology, Islamic Azad University, Science and Research    Branch of Tehran. [email protected] [2]. Professor of Sociology, Faculty of Social Welfare and Rehabilitation Sciences, Tehran, Iran    (Corresponding Author).   [email protected] [3]. Professor of Sociology, Faculty of Social Sciences, University of Tehran, Iran     [email protected]

    Semi-rigid floor-to-wall connections using side-framed lightweight steel structures : Concept development

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    Author statement Alireza Bagheri Sabbagh: Conceptualization, Methodology, Software, Validation, Formal analysis, Investigation, Resources, Writing – original draft, Visualization, Shahabeddin Torabian: Conceptualization, Methodology, Validation, Investigation, Resources, Writing – review & editing, Visualization.Peer reviewe

    Crossing the mirror into maternal waters: the ethics and aesthetics of Becoming-other in Ella Hickson’s The Writer (2018)

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    The past two decades of contemporary British drama have been marked by an upsurge of interest in the exploration of the ethics, aesthetics and politics of authorship along with the relational dynamics among the author, the work and audience/reader. One of the latest and paradigmatic examples of this trend is Ella Hickson’s The Writer (2018), a play informed by a queer feminist sensibility and distinguished by its aesthetics, its form, and its political critique of theatre as an institute underpinned by phallogocentric and heteronormative discourses. Accordingly, the essay will demonstrate how the queering of gender and genre are indelibly intertwined in the play. The Writer queers conventional theatrical form not only by deconstructing its “economy” and “forms” of hegemonic subjectivity, expression, and desire; but also by incorporating a surreal scene and various metatheatrical moments – to develop a more evental (or feminine) form characterised by formal transgression, abstraction, and excess. The Writer queers gender by pondering the dynamics of an evental love-sex relationship between the female writer (the protagonist) and her female lover along with a surreal experience of intimacy between the writer and mythical Semele. To effectively ponder the thematic and formal preoccupations of The Writer, this essay develops a nuanced conceptual framework whose premises include Irigaray’s “the female imaginary”, Deleuze’s “becoming-other”, Cixous’s “écriture feminine”, Lyotard’s “the figural” and Derrida’s “chora”

    Heat and mass transfer in layered seedbed

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    Agricultural cultivation and seeding practices often leave a "layered" seedbed structure. Layering is assumed to reduce evaporative losses from the soil surface. In this study, the effect of layering on temperature and water content variations in a clay soil was investigated. Soil columns 150 mm in height and 200 mm diameter were prepared with four different layering configurations, and three different initial water contents, and allowed to dry for a week in a controlled environment. Settings in the growth chamber were 15°C and 44% relative humidity for 16 hours and 5°C and 85% relative humidity for 8 hours. Temperature and water content in different layers of the soil column were monitored continuously. Statistical analysis of the data revealed that layering had a significant effect on moisture retention in soil columns with low initial water contents, while no effect or even increased moisture losses were found in soils with high initial water contents. Layering had no effect on temperature variations in the soil columns. A pressure-based coupled heat and mass transfer model was developed to simulate temperature and soil water pressure (suction) in a layered soil profile. A finite difference formulation of the model was solved using a FORTRAN 77 computer code. Model predictions were compared with experimental data. The model predicted the water content (MRPD values ranged from 2.1% to 7.7%) and temperature (MRPD values ranged from 0.60% to 0.77%) with reasonably low deviations from the measured values. The model showed very high sensitivity to the proposed hydraulic conductivity function, while lower sensitivity was found for the proposed thermal conductivity function. For practical purposes in the clay soil tested, layering may be desirable for low initial water content conditions, while in higher water contents, stratification may have an adverse effect on moisture retention. Verification of the model for field conditions is left for future studies

    Deep Brain Stimulation (DBS) and Implant-friendly (IF) Mode Calculator

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    Repository includes MATLAB codes. Raw input and and output files may be requested by emailing the author. The code that supports the findings of this study is openly available at https://github.com/AliSaMRI/DBS_IF_Mode_CalculatorThe purpose of this study is to present a strategy to calculate the implant-friendly (IF) excitation modes—which mitigate the radiofrequency (RF) heating at the contacts of deep brain stimulation (DBS) electrodes—of multi-channel RF coils at 7T. Methods: An induced RF current on an implantable electrode generates a scattered magnetic field whose left-handed circularly polarizing component (B1+) is approximated using a -mapping technique and subsequently utilized as a gauge for the electrode’s induced current. Using this approach, the relative induced currents due to each channel of a multi-channel RF coil on the DBS electrode were calculated. The IF modes of the corresponding multi-channel coil were determined by calculating the null space of the relative induced currents. The proposed strategy was tested and validated for unilateral and bilateral commercial DBS electrodes (directional lead, Infinity DBS system, Abbott Laboratories) placed inside a uniform phantom by performing heating and imaging studies on a 7T MRI scanner using a 16-channel transceive RF coil. Results: Individual IF modes nor shim solutions obtained from IF modes did not induce significant temperature increase when used for a high-power Turbo Spin Echo sequence. In contrast, shimming with the scanner’s toolbox (i.e., based on per-channel B1+ fields) resulted in a more than 2°C temperature increase for the same amount of input power. Conclusion: A strategy for calculating the IF modes of a multi-channel RF coil is presented. This strategy was validated using a 16-channel RF coil at 7T for unilateral and bilateral commercial DBS electrodes inside a uniform phantom.Sadeghi-Tarakameh, Alireza; DelaBarre, Lance; Zulkarnain, Nur Izzati Huda; Harel, Noam; Eryaman, Yigitcan. (2023). Deep Brain Stimulation (DBS) and Implant-friendly (IF) Mode Calculator. Retrieved from the University Digital Conservancy, https://doi.org/10.13020/h56h-bd77

    Dynamics of erythrocytes, vesicles and capsules in shear flow: the role of membrane bending stiffness and membrane viscosity

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    Three-dimensional numerical simulations using immersed boundary/front-tracking method are considered to study the dynamics and deformation of microscopic deformable cells with elastic and viscoelastic membranes suspended in linear shear flow. The objective in this thesis is to understand the complex fluid/structure interaction problem for membrane-bound soft matter in dilute suspensions. The numerical model includes all essential properties of the cell membrane, namely, the resistance against shear deformation, area dilatation, and bending, as well as the viscosity difference between the cell interior and suspending fluids. In addition, the Kelvin–Voigt viscoelastic model is incorporated to account for the effect of membrane viscosity. Our numerical technique is able to simulate complex dynamics of vesicles, capsules, and red blood cells in the tank-treading, breathing, trembling, and tumbling modes. A detailed comparison of the numerical results for vesicles is made with various theoretical models and experiments. It is found that the applicability of the theoretical models is limited to quasi-spherical vesicles. We show that near the transition between the tank-treading and tumbling dynamics, both the vacillating-breathing-like motion characterized by a smooth ellipsoidal shape, and the trembling-like motion characterized by a highly deformed shape are possible. We also present phase diagrams of the single red blood cell dynamics in linear shear flow. We find that the cell dynamics is often more complex than the well-known tank-treading, tumbling, and swinging motion and is characterized by an extreme variation of the cell shape. Identifying such complex shape dynamics termed here as breathing dynamics, is the focus of this study. Further, we find a very good agreement between our numerical and the theoretical and experimental results on the tank-treading frequency of red blood cells, which is often measured in experiments and used to extract the mechanical properties of the cell. A comprehensive analysis of the influence of the membrane viscosity on buckling, deformation and dynamics is given for initially spherical or oblate capsules. The major finding here is that the membrane viscosity leads to buckling in the range of shear rates in which no buckling is observed for capsules with purely elastic membrane.Ph. D.Includes bibliographical referencesIncludes vitaby Alireza Zarif Khalili Yazdan

    Ultralight Membrane Structures Toward a Sustainable Environment

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    The building construction industry is the largest anthropogenic source of pollution, with massive energy consumption and substantial CO2 emissions. Lightweight tension structures allow the simultaneous implementation of several sustainable strategies by using recyclable low-carbon structural membranes offering a greener alternative to glass and other cladding materials. Their efficient structural load-bearing mechanisms result in significant weight savings in buildings and a drastic reduction of the environmental impact associated with material production, transportation, use, and disposal. A subgroup of lightweight materials, structural fabrics, and foils has been gaining popularity among designers and architects in recent years because of their desirable features such as high stiffness, strength, ductility, durability, and functional properties. While these structural membranes open new crucial perspectives for the clean energy transition and have been recently employed worldwide, their full potential is still limited by the lack of construction codes, advanced optimization tools, and comprehensive viscous-thermo-mechanical constitutive models. This chapter aims to foster the design of membrane structures by presenting their basic principles and recent advancements in the field. It covers the design approaches, employed materials and efforts in their characterization and modeling, implications on the sustainability of the built environment, current challenges, and future pathways from both academic research and engineering design viewpoints.Team Marcel Sluite

    Knowledge Type Identification in API Documentation

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    <p>This release contains the source code and instruction on how to obtain the dataset to reproduce the results presented in the following paper</p> <pre><code>@inproceedings{FMM19, title={On Using Machine Learning to Identify Knowledge in API Reference Documentation}, author={Fucci, Davide and M. Alizadeh B., Alireza and Maalej, Walid}, booktitle={27th ACM Joint European Software Engineering Conference and Symposium on the Foundations of Software Engineering}, pages={103--112}, year={2019}, doi={10.1145/3338906.3338943} organization={IEEE} } </code></pre&gt
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