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The Journal of American Science
(J Am Sci)
ISSN 1545-1003 (print); ISSN 2375-7264 (online),
doi prefix: 10.7537, Monthly
Volume 22, Issue 7, Cumulated
No. 221, July 25, 2026
Cover (pdf),
Cover,
Introduction,
Contents,
Call
for Papers
The following manuscripts are presented as online first for
peer-review, starting from July 6, 2026.
All comments
are welcome:
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americansciencej@gmail.com,
or contact with author(s) directly.
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cite it.
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Marsland Press, 310 W 18th
Street, New York, NY 10011, USA.
718-404-5362; 347-321-7172
CONTENTS
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GROSS DOMESTIC PRODUCT (GDP) AND ITS GROWTH RATE ON SELECTED
AFRICAN COUNTRIES: A PANEL REGRESSION
APPROACH
1RASAKI YINKA AKINBO and 2ABAYOMI
AYODELE AKOMOLAFE
1Department
of Mathematics and Statistics, Federal Polytechnic, Ilaro, Ogun
State
rasaki.akinbo@federalpolyilaro.edu.ng
2Department
of Statistics, Federal University of Technology, Akure,
Nigeria.
akomolafeayotade@gmail.com
ABSTRACT:
The economic
growth of African countries is influenced by a range of factors,
including labor, Foreign Direct Investment (FDI), exchange rate
fluctuations, and inflation. This study focused on African
countries and specifically on Nigeria, Côte d'Ivoire, and
Senegal to explore how these variables affect GDP growth rates.
The aim of this study is to investigate the impact of labor,
FDI, exchange rate, and the selected countries using a panel
regression approach. A panel regression analysis was conducted
using data from the three selected West African countries
between 1995 to 2024. The model includes labor, FDI, exchange
rate, and inflation as independent variables, with
country-specific effects accounted for through a random effects
model. The results reveal that in Nigeria, labor significantly
negatively impacts GDP growth, suggesting inefficiencies in the
labor market. FDI and exchange rate fluctuations do not have
significant effects. In Côte d'Ivoire, FDI significantly
enhances GDP growth, while the exchange rate has a significant
negative impact. In Senegal, none of the examined variables
labor, FDI, exchange rate, or inflation shows a significant
impact on GDP growth, indicating the presence of other
influencing factors. The study highlights the varying effects of
labor, FDI, exchange rate, and inflation on GDP growth across
Nigeria, Côte d'Ivoire, and Senegal. The significant role of FDI
in Côte d'Ivoire underscores the importance of foreign
investment in economic growth, while the negative impact of
labor in Nigeria points to labor market inefficiencies. These
findings provide valuable insights for policymakers to tailor
strategies that address specific economic challenges and
leverage opportunities for growth in these countries.
[RASAKI YINKA
AKINBO and ABAYOMI AYODELE AKOMOLAFE. GROSS DOMESTIC
PRODUCT (GDP)
AND ITS GROWTH RATE ON SELECTED AFRICAN COUNTRIES: A PANEL
REGRESSION APPROACH.
J Am Sci
2026;22(7):1-164]. ISSN 1545-1003 (print); ISSN 2375-7264
(online).
http://www.jofamericanscience.org.
01. doi:10.7537/marsjas220726.01
Keywords:
Labor; Foreign Direct Investment; Exchange Rate Fluctuations and
Inflation |
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Non continuous allocation Algorithm for Increasing the
Utilization Processor in Multi-Computers Network
*
Rahmat
Zolfaghari
Department of Computer Engineering, Has.C., Islamic Azad
University,
Hashtgerd, Iran
Dr.Zolfaghari@iau.ac.ir
Abstract:
Processor allocation is responsible for selecting a set of
processors in order to run parallel work on them, while job
schedule is responsible for determination of executing works.
Two strategies
are
used for
the
allocation
of
jobs
to
processors
connected
by
mesh
topologies:
contiguous
allocation
and
non-contiguous
allocation.
Continuous
allocation methods always try to allocate a free continuous
sub-mesh with the same requested dimensional structure to the
parallel input job. For this reason, it produces the internal
fragmentation in the processors network. In
non-contiguous
allocation,
a job
request
can
be
split
into
smaller
parts that
are
allocated
possibly
non-adjacent
free
sub-meshes
rather
than
always
waiting
until a single
sub
mesh
of
the
requested
size
and shape
is
available.
Lifting
the
contiguity
condition
is
expected
to
reduce processor
fragmentation
and increase
Utilization. However,
the
distances
traversed
by
messages
can
be long, and
as a result the
communication
overhead,
especially contention,
is increased.
The extra
communication
overhead
depends
on
how
the
allocation
request
is partitioned and
assigned
to
free
sub-
meshes In
large multi-computers, using an allocation algorithm in
particular and an efficient scheduled algorithm is very crucial
to have the maximum computing power.
Mesh
is a
widely used
architecture
in parallel
computing
systems.
Research
on
efficient
allocation
of
processors
to
incoming
tasks
on
mesh
architecture
is
very
important
in achieving
the
desired
high performance.
communication overhead is highly dependent on to the manner of
free sub-meshes allocation and the manner of recording by the
algorithm. In this Research, a fast and efficient noncontinuous allocation
algorithm(FENA) with the ability to maintain maximum continuity
multiprocessors with mesh topology has been presented for a
two-dimensional mesh network .The
performance
of this algorithm and continuous and noncontinuous allocation
algorithms are determined and compared via simulator, Simulation
results indicate the improved performance parameters in the
FENA(fast and efficient
non-continuous
allocation)algorithm.
[Rahmat
Zolfaghari.
Non continuous allocation Algorithm for Increasing the
Utilization Processor in Multi-Computers Network.
J Am Sci
2026;22(7):17-26]. ISSN 1545-1003 (print); ISSN 2375-7264
(online).
http://www.jofamericanscience.org.
02. doi:10.7537/marsjas220726.02
Keywords:
Utilization; multi-computers network; allocation processor;
fragmentation; continuous and noncontinuous allocation
algorithms. |
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The future of Kadana Dam
Gangadhar
H.No.5-30-4/1,Saibabanagar, Jeedimetla, Hyderabad, India-500055
Email:
gangadhar19582058@gmail.com
Abstract:
What will be the future water
availability in Kadana Dam in the coming years and decades? Here
is a critical point to bring to the notice of Indian
governments, scientists, irrigation engineers, officers,
farmers, and people to be aware of one thing. That is to say,
India will be hit by a series of heavy rain floods in the coming
years. According to the Indian Monsoon Time Scale, India is
currently rapidly entering the throes of an era of major heavy
rains and floods. As a result, India will be plagued by heavy
rains and floods until around 2070. These conditions are now
rising and peaked around 2045 and then began to subside by 2070.
However, this does not mean that floods occur in all years.
There are more flood years and fewer drought years. This study
suggests that the Kadana Dam is likely to fill up waters in the
coming years, for a period of 50 years, up to approximately
2075. Floods may occur in some years, causing loss of life and
property in the catchment and drainage areas. Therefore, the
situation in the catchment and drainage areas of the Kadana Dam
should be closely monitored, and strategies should be prepared
accordingly. This paper is composed of updated additional
information and analysis with new data compared with current
developments.
[Gangadhar.
The
future of Kadana Dam.
J Am Sci
2026;22(7):27-99]. ISSN 1545-1003 (print); ISSN 2375-7264
(online).
http://www.jofamericanscience.org.
03. doi:10.7537/marsjas220726.03
Keywords:
Ecological Forecasting Time Scales(1965-70), A New Model of
Cosmology (1970-80), Basics of Geoscope (1980-87), Basics of
Monsoon Time Scales (1987-91), Astro-Climatic Numerical Periodic
Tables (1991-2000), Designs of Geoscope(2000-2015), Designs of
Global Monsoon Time Scales (2015-still)
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All
comments are welcome:
editor@americanscience.org;
americansciencej@gmail.com,
or contact with author(s) directly.
For back issues of the Journal of American Science, click here.
Emails:
editor@americanscience.org;
americansciencej@gmail.com
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