IIARD INTERNATIONAL JOURNAL OF GEOGRAPHY AND ENVIRONMENTAL MANAGEMENT (IJGEM )

E-ISSN 2504-8821
P-ISSN 2695-1878
VOL. 10 NO. 7 2024
DOI: 10.56201/ijgem.v10.no7.2024.pg17.33


A Spatio-Topographical Analysis of Mobile Network Quality in the Rocky Settlements of Dutsin-Ma Town, Katsina State

Amir Abdulazeez and Christopher Ndabula


Abstract


The Research is aimed at identifying the spatial distribution and variation of mobile phones network quality in the study area which is dominated by irregular topography, inselbergs and rock outcrops. To achieve this aim, fifty (50) sampled areas were selected in Dutsin-Ma Town based on the nature of their rugged terrain and rocky landscape. Smart phones were used to collect Ultra-High Frequency (UHF) data using systematic grid sampling technique to determine the network strength of MTN, GLOBACOM, AIRTEL, and ETISALAT. A total of one hundred (100) structured questionnaires were also distributed to residents to obtain the necessary information to validate the results from users’ perspective. The research found out that generally Dutsin-Ma is a not a town with good network as average (48%) and poor (36%) network quality dominates the area; only 16% of the areas have good network quality. From the questionnaire survey, majority (43%) of the respondents are using MTN because of its high quality and resistance especially in areas with rock outcrops. It was also found that areas around Motel, Gidan Ruwa, Hayin Gada, all of relatively moderate relief (512-578m) has the best Network; Unguwar Tsamiya, Dan Kauye and Tsohuwar Kasuwa have average Network while areas like Unguwar Alkali and Unguwar Wakaji have poor network quality. It was therefore concluded that network challenges in some areas have (in addition to other factors) a strong connection with elevation, rugged terrain and rocky landscape. However, in some few instances (Kadangaru and Makarantar Gabas), quality of some network like GLO and Airtel increases with altitude. It was also found that rugged terrains constitute a barrier to successful installation of masts in many locations. The research recommended adequate town and landuse planning that will ensure improved spatial distribution of masts for quality phone signals of all networks across Dutsin-Ma area.


keywords:

Elevation, Landscape, Network, Environment, Determinism, Possibilism


References:


Abdulazeez, A., Ibrahim, A., Adamu, G.K, Kasim, A.A., Suleiman, U.A and Garba, R. L (2021)

Evaluation of Landuse Impediments and Adaptations in the Rocky Terrains of the Extended

Dutsin-Ma Region of Katsina State, Nigeria. Journal of Conflict Resolution and Social Issues

2 (1), 88-102.
Abdulazeez, A., Ibrahim, A. and Adamu, G.K. (2018). Geography, Historical Settlements and Physico-

Environmental Nature of Dutsin-Ma. In Adejo, A.M and Rabi’u, A. (Eds) Dutsin-Ma: Its Rise,

Growth and Development (12-25). Department of History and Strategic Studies, Federal

University, Dutsin-Ma. Gwatex Publishers, Benue State, Nigeria.
Hillebrand, F. (Eds). (2001). GSM and UMTS, The Creation of Global Mobile Communications. John

Wiley & Sons. ISBN 978-0-470-84322-2.
Colpaert, A. (2018). Areal Coverage Analysis of Cellular Systems at LTE and mmWave Frequencies

Using 3D City Models. Sensors (Basel) 18(12): 4311. doi:10.3390/s18124311
Karanja, H.S., Misra, S. and Atayero, A.A.A (2023). Impact of Mobile Received Signal Strength (RSS)

on Roaming and Non-roaming Mobile Subscribers. Wireless Personnel Communication 129,

1921-1938.
Kum, D.W. (2010) Mobility-Aware Hybrid Routing Protocol for Wireless Mesh Networks. In the

Proceedings of the 2010 3rd International Conference on Advances in Mesh Networks, 59-62.
Ministry of Land and Survey Katsina State (2008). Reports on the Geography of Katsina State.
Mishra, A.R., (2007). Advanced Cellular Network Planning and Optimization, 2G/2.5G/3G, Evolution

4G. JohnWiley& Sons Ltd, the Atrium, Southern Gate, Chichester, West Sussex Po19 8sq,

England.
Mtaho A.B. and Ishengoma, F.R. (2011). Analysis of Quality of Service in Tanzania Cellular

Networks, A Case of Dodoma Municipal, Journal of Informatics and Virtual Education

(JIVE), Vol.1 P. 34
Pashtan, A., (2006). Wireless Terrestrial Communications, Cellular Telephony, Aware Networks, Inc.,

Buffalo grove, Illinois, USA, Eolss Publishers. P89
Popoola, J.J., Megbowon, I.O. and Adeloye V. S. (2009): Performance Evaluation and Improvement

on Quality of Service of Global System for Mobile Communications in Nigeria. Journal of

Information Technology Impact (JITI), Vol. 9, pp. 91-106.
Rappaport, T. (1996). “Wireless Communications, Principles and Practices.” Prentice Hall, PTR

Upper Saddle River, New Jersey.260p.
Rappaport, T.S. (2002), Wireless Communications: Principles and Practice, 2nd Edition, New Jersey,

Prentice Hall Singapore.
Sridhar, V. (2004): “Telecommunications Infrastructure and Economic Growth: Evidence from

Developing Countries”, available at http:// ideas.repec.org.
Tanzania Communication Regulatory Authority (TCRA), (2013), 2013 Quarterly Statistics Reports.
Zhang, J et al. (Ed). (2005). Cellular Networks, Handbook on Information Security: H. Bidgoli, john

Wiley & sons Ltd.., the Atrium, Southern Gate, Chichester, West Sussex Po19 8sq, England.

Vol I, Part 2, P 654-663


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