1,344 research outputs found

    The Analysis of Spatial Pattern and Hotspots of Aviation Accident and Ranking the Potential Risk Airports Based on GIS Platform

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    Aviation accident analysis is an important task to ensure aviation safety. The existing researches mainly focus on the analysis of aviation accident time characteristics and accident causes and less analysis of the spatial characteristics of aviation accidents. The spatial characteristics analysis of aviation accidents can identify hot spots of aviation accidents, improve the accuracy of aviation accident emergency management, and provide decision support for airport route planning. This study established the severity index of aviation accident based on aviation accident data, using GIS spatial analysis methods to study the spatial distribution characteristics of aviation accidents. The hot spots were identified in the aviation accidents. Finally, airports around the accident hot spots were ranked to obtain the airports with high potential aviation risks based on RI, taking Florida as an example. It was found that in the Florida aviation accident, general aviation accidents accounted for the majority, but the aviation accident severity index for air route flight was far greater than general aviation accidents. From the spatial distribution point of view, accidents with high severity index were distributed around large international airports. The Density Center for Aviation Accidents was located in Tampa, Miami, and some airports link areas in Florida. In terms of the Moran’s I index, the distribution of aviation accidents tended to aggregate in the region as a whole. However, aviation accident severity index was randomly distributed for each year separately. At the level of significance of 0.01, there were a total of 75 accident hotspots in the Florida region, mainly in the north and southwest. Airports with high RI in the Florida area were mainly concentrated in the Miami area and the Tampa Bay area, and Orlando Airport was ranked outside the top 10. Document type: Articl

    GPC5 Gene and Its Related Pathways in Lung Cancer

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    Treating Employees Equally or Differently? Towards a Theory of Idiosyncratic Human Resources Management

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    Under the environment of VUCA (Volatility, Uncertainty, Complexity, Ambiguity), organization’s development is increasingly relying on human resources with specific skills and abilities. But it is becoming more and more challenging to manage such employees. The traditional standardized human resource management (HRM) mode, which pays attention to the "best fit" or "best practice" has been unable to play its role effectively any more. In the past several years, scholars have proposed the idea of differentiated management (Marescaux & Sels 2013) used to direct the management of talent resources. However, there still lacks an in-depth investigation of differentiated HRM, especially from the perspective of employees' characteristics. This research aims to develop a theory of idiosyncratic HRM which implements differentiated management to different people (or groups) in recruitment and selection, training and development, performance appraisal, salary and welfare, and employee relationship according to employees’ personality and need characteristics. This research not only provides a new perspective for HRM research, but also has practical significance for the reform and innovation of organization's HRM system. Keywords: best fit, best practice; idiosyncratic human resource management DOI: 10.7176/EJBM/13-3-01 Publication date: January 31st 202

    Electronic Structures of SiC Nanoribbons

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    Electronic structures of SiC nanoribbons have been studied by spin-polarized density functional calculations. The armchair nanoribbons are nonmagnetic semiconductor, while the zigzag nanoribbons are magnetic metal. The spin polarization in zigzag SiC nanoribbons is originated from the unpaired electrons localized on the ribbon edges. Interestingly, the zigzag nanoribbons narrower than ∟\sim4 nm present half-metallic behavior. Without the aid of external field or chemical modification, the metal-free half-metallicity predicted for narrow SiC zigzag nanoribbons opens a facile way for nanomaterial spintronics applications.Comment: 10 pages, 5 figure

    Controllable radio interference for experimental and testing purposes in wireless sensor networks

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    Abstract—We address the problem of generating customized, controlled interference for experimental and testing purposes in Wireless Sensor Networks. The known coexistence problems between electronic devices sharing the same ISM radio band drive the design of new solutions to minimize interference. The validation of these techniques and the assessment of protocols under external interference require the creation of reproducible and well-controlled interference patterns on real nodes, a nontrivial and time-consuming task. In this paper, we study methods to generate a precisely adjustable level of interference on a specific channel, with lowcost equipment and rapid calibration. We focus our work on the platforms carrying the CC2420 radio chip and we show that, by setting such transceiver in special mode, we can quickly and easily generate repeatable and precise patterns of interference. We show how this tool can be extremely useful for researchers to quickly investigate the behaviour of sensor network protocols and applications under different patterns of interference, and we further evaluate its performance

    Phase Equilibria and Phase Separation of the Aqueous Solution System Containing Lithium Ions

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    Brines including seawater, concentrated seawater after desalinization, salt lake, oil/gas water, and well bitter are widely distributed around the world. In order to promote the comprehensive utilization and effective protection of the valuable chemical resources existing in brines such as freshwater, lithium, sodium, potassium, and magnesium salts, the systematic foundation and application foundation research including phase equilibria and thermodynamic properties for the salt‐water electrolyte solution are essential, especially for solid lithium salts and their aqueous solution systems

    Ground state solutions to a coupled nonlinear logarithmic Hartree system

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    In this paper, we study the following coupled nonlinear logarithmic Hartree system \begin{align*} \left\{ \displaystyle \begin{array}{ll} \displaystyle -\Delta u+ \lambda_1 u =\mu_1\left( -\frac{1}{2\pi}\ln(|x|) \ast u^2 \right)u+\beta \left( -\frac{1}{2\pi}\ln(|x|) \ast v^2 \right)u, & x \in ~ \mathbb R^2, \vspace{.4cm}\\ -\Delta v+ \lambda_2 v =\mu_2\left( -\frac{1}{2\pi}\ln(|x|) \ast v^2 \right)v +\beta\left( -\frac{1}{2\pi}\ln(|x|) \ast u^2 \right)v, & x \in ~ \mathbb R^2, \end{array} \right.\hspace{1cm} \end{align*} where β,μi,λi (i=1,2)\beta, \mu_i, \lambda_i \ (i=1,2) are positive constants, ∗\ast denotes the convolution in R2\mathbb R^2. By considering the constraint minimum problem on the Nehari manifold, we prove the existence of ground state solutions for β>0\beta>0 large enough. Moreover, we also show that every positive solution is radially symmetric and decays exponentially
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