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PIER PIER B PIER C PIER M PIER Letters
2020-05-15
Estimation and Analysis of the Radio Refractivity, Its Gradient and the Geoclimatic Factor in Arctic Regions
By
Yamina Bettouche,

    Dr. Yamina Bettouche

    École de Technologie Supérieure

    Canada

    Homepage

Basile Agba,

    Dr. Basile Agba

    École de Technologie Supérieure

    Canada

    Homepage

Ammar B. Kouki,

    Prof. Ammar B. Kouki

    LACIME, École de Technologie Supérieure

    Canada

    Homepage

Huthaifa Obeidat,

    Dr. Huthaifa Obeidat

    Faculty of Engineering

    Jerash University

    Jordan

    Homepage

Ali Alabdullah,

    Dr. Ali Alabdullah

    Faculty of Engineering and Informatics

    University of Bradford

    UK

    Homepage

Fathi Abdussalam,

    Dr. Fathi Abdussalam

    Faculty of Engineering and Informatics

    University of Bradford

    UK

    Homepage

Sabir Ghauri,

    Dr. Sabir Ghauri

    Department of Engineering and Mathematics

    University of West England

    UK

    Homepage

Raed A. Abd-Alhameed

    Prof. Raed A. Abd-Alhameed

    Electronics and Telecommunications

    University of Bradford

    UK

    Homepage

Progress In Electromagnetics Research M, Vol. 92, 181-192, 2020
doi:10.2528/PIERM20020709
Abstract
In this paper, local meteorological data of one year have been used to calculate the surface atmospheric radio refractivity (N) and estimate the vertical refractivity gradient (dN1) as well as the geoclimatic factor (K) in the lowest atmospheric layer above the ground surface in the station Kuujjuaq (Quebec, Canada). In this region, the climate is arctic, characterized by very long and very cold winters (on average the temperature is below -20˚C for almost 240 days per year). The precipitations are almost nonexistent, and the vegetation is scarce. Average daily, monthly, seasonal, and yearly variations of the N, dN1, and K are estimated and analysed. The obtained values of these indices are compared to the corresponding values provided by the ITU. The results show that the more negative values of dN1 lie in the summer season. This is mainly due to the important variations of the temperature and humidity during this season. However, the estimated values lie in the limits mostly corresponding to standard refraction.
Citation
Yamina Bettouche, Basile Agba, Ammar B. Kouki, Huthaifa Obeidat, Ali Alabdullah, Fathi Abdussalam, Sabir Ghauri, and Raed A. Abd-Alhameed, "Estimation and Analysis of the Radio Refractivity, Its Gradient and the Geoclimatic Factor in Arctic Regions," Progress In Electromagnetics Research M, Vol. 92, 181-192, 2020.
doi:10.2528/PIERM20020709
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