USING THE GINI COEFFICIENT AND LORENZ CURVE TO ASSESS THE CONCENTRATION LEVEL OF THE METALLURGICAL INDUSTRY IN EUROPE

被引：0

作者：

Wysokinski, Marcin ^{[1
]}

Golasa, Piotr ^{[1
]}

Baran, Joanna ^{[1
]}

Bienkowska-Golasa, Wioletta ^{[1
]}

机构：

[1] Warsaw Univ Life Sci SGGW, Warsaw, Poland

来源：

METAL 2017: 26TH INTERNATIONAL CONFERENCE ON METALLURGY AND MATERIALS | 2017年

关键词：

Metallurgy; industry; concentration; Europe; COMPANIES;

D O I：

暂无

中图分类号：

TF [冶金工业];

学科分类号：

0806 ;

摘要：

The main purpose of this paper is to determine the concentration level of the metallurgical industry in Europe. The first part presents the overall situation in this sector in the 2007-2014 period. In the second part, the concentration of the metallurgical industry in Europe has been estimated using the Lorenz curve and the Gini coefficient based on Eurostat data. It has been noted that four countries with the most significant share in the metallurgical industry: Germany, Italy, France and Spain account for about 50% of European production and employment, which indicates a high concentration of the sector. It has been determined that since 2007 the level of concentration in terms of production and the number of persons employed has increased, which most likely is a reaction of the sector to the economic crisis of 2008.

引用

页码：2344 / 2349

页数：6

共 36 条

[21] Lorenz Curve and Gini Coefficient Reveal Hot Spots and Hot Moments for Nitrous Oxide Emissions
Saha, Debasish
Kemanian, Armen R.
Montes, Felipe
Gall, Heather
Adler, Paul R.
Rau, Benjamin M.
[J]. JOURNAL OF GEOPHYSICAL RESEARCH-BIOGEOSCIENCES, 2018, 123 (01) : 193 - 206
[22] The Application of Spatial Lorenz Curve (SLC) and Gini Coefficient in Measuring Land Use Structure Change
Song, Yu
Qiu, Quanyi
Guo, Qinghai
Lin, Jianyi
Li, Fangyi
Yu, Yuxian
Li, Xuanqi
Tang, Lina
[J]. 2010 18TH INTERNATIONAL CONFERENCE ON GEOINFORMATICS, 2010,
[23] Assessing Spatial and Temporal Distribution of Algal Blooms Using Gini Coefficient and Lorenz Asymmetry Coefficient
Zhou, Ting
Ni, Cheng
Zhang, Ming
Xia, Ping
[J]. FRONTIERS IN ENVIRONMENTAL SCIENCE, 2022, 10
[24] GROUPING BOUNDS FOR THE LORENZ CURVE AND THE GINI INDEX UNDER ALTERNATIVE ASSUMPTIONS ABOUT THE LEVEL OF INFORMATION
GASNIER, S
JOHNK, MD
[J]. JAHRBUCHER FUR NATIONALOKONOMIE UND STATISTIK, 1994, 213 (06): : 724 - 746
[25] Estimating Gini Coefficient from Grouped Data Based on Shape-Preserving Cubic Hermite Interpolation of Lorenz Curve
Shang, Songpu
Shang, Songhao
[J]. MATHEMATICS, 2021, 9 (20)
[26] Characterizing exposure-disease association in human populations using the Lorenz curve and Gini index
Lee, WC
[J]. STATISTICS IN MEDICINE, 1997, 16 (07) : 729 - 739
[27] Using the Lorenz Curve to Assess the Feasibility of Targeted Screening for Esophageal Adenocarcinoma
Xie, Shao-Hua
Lagergren, Jesper
[J]. EPIDEMIOLOGY, 2017, 28 (02) : E11 - E12
[28] The Advantages of Using Group Means in Estimating the Lorenz Curve and Gini Index From Grouped Data
Lyon, Merritt
Cheung, Li C.
Gastwirth, Joseph L.
[J]. AMERICAN STATISTICIAN, 2016, 70 (01): : 25 - 32
[29] INDIVIDUAL VARIABILITY IN REPRODUCTIVE SUCCESS OF TRIAENOPHORUS-CRASSUS FOREL (CESTODA, PSEUDOPHYLLIDEA), WITH COMMENTS ON USE OF THE LORENZ CURVE AND GINI COEFFICIENT
SHOSTAK, AW
DICK, TA
[J]. CANADIAN JOURNAL OF ZOOLOGY-REVUE CANADIENNE DE ZOOLOGIE, 1987, 65 (12): : 2878 - 2885
[30] Analysis of Income Distribution with Lorenz Curve and Gini Coefficient of Skopje/Kocana District According to the 19th Century Temettuat Books
Karaduman, Gokay
Tabakoglu, Ahmet
[J]. ESKISEHIR OSMANGAZI UNIVERSITESI IIBF DERGISI-ESKISEHIR OSMANGAZI UNIVERSITY JOURNAL OF ECONOMICS AND ADMINISTRATIVE SCIENCES, 2021, 16 (01): : 146 - 165

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