Microwave signal attenuation at 7.2GHz in Rain and Harmattan Weather

Shoewu, O.; Edeko, F.O.

doi:10.5251/ajsir.2011.2.3.332.345

Cited by 5 publications

(4 citation statements)

References 4 publications

(2 reference statements)

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“…After collecting the daily information for many times of the day and for winter and summer seasons which included (fair, cloudy, and rainy days) with different variable values, so the data were arranged in tables showing the values for each of mobile signal and 'TV' satellite signal including corresponding values of other variables at the same time of temperature, humidity and UV index, as well as corresponding weather condition, see Table .1 which show the variation of meteorological variables comparing with mobile signal strength in (dp) unit. The result shows that the weather condition has a clear effect on radio wave signal value, and this is clearly shown on Figure 1 where it shows that rainy days are corresponding with the lowest signal range as compared with other cases because of increasing water intensity in the air that effects on wave transport from the tower to the mobile phone, therefore it leads to lower signal values reaching (15 dp).the result also showed that the cloud can affect on mobile phone signal strength because when compare between two days with different conditions "first one spatially clouded and the second one is fully clouded", then it found that the signal strength is affected by fully clouded day more than its effect with spatially clouded day, so can say that the signal strength always effected by cloud and records approximately (30 dp) but it considered acceptable ratio to make good communication, It is worth noting that previous studies have indicated similar results related to rain intensity and its effect on signal strength [3]. On the other side the days with fair weather correlated with the highest signal strength because of the absence of meteorological obstacles that effect wave transfer, see Figure 1.…”

Section: Resultsmentioning

confidence: 76%

“…The way that control wave transferring from transmitter device to receiver device is considered very important when starting to make a new communication system, therefore it is very useful to take into account the nature of the new place [2]. The electromagnetic wave is involved inside the electromagnetic spectrum which extended from shorter to longer wavelength [3]. Humans were able to exploit all parts of the electromagnetic spectrum at various levels and in many medical, engineering and space communications fields [4].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Effect of Some Meteorological Variables and Conditions on Mobile Phone and 'TV' Satellite Signal

Nemah¹,

Ahmed²,

Khaleed³

et al. 2021

MJS

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The study aimed to seek for the effect of meteorological parameters and conditions on wave transport for both radio wave band that used by mobile phone communication and microwave band that used in 'TV' satellites by showing which atmospheric variable and conditions have a positive or negative effect on signal strength. Data of study was recorded perfectly from one selected point by hand using the same devices for all recording to exclude the error caused by changing device types. The results showed that atmospheric conditions had a noticeable effect on microwave signal band that used by 'TV' satellite especially when there was a rainy case, and for atmospheric 'UV' index it had a direct positive effect on radio waveband used by mobile phone because there was an increase in signal strength corresponding with increasing of 'UV' index (from 1 to 5 of UV index range). For temperature, the result showed inverse proportion with radio waveband signal, but relative humidity didn't show up any relations with both study band's signals. Day time variation of signals was recorded for both wavebands, the result of radio waveband signal fluctuated in semi sine wave shape but with decreasing trend along day time, and for 'TV' satellite microwave band signal the result recorded increasing trend along day time, and this may because of solar radiation activity but in general, the satellite band signal was higher affected by weather condition as compared with mobile phone radio wave signal band.

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Section: Resultsmentioning

confidence: 76%

Section: Introductionmentioning

confidence: 99%

Effect of Some Meteorological Variables and Conditions on Mobile Phone and 'TV' Satellite Signal

Nemah¹,

Ahmed²,

Khaleed³

et al. 2021

MJS

View full text Add to dashboard Cite

show abstract

“…Tese values indicate that the designed link is highly reliable, ensuring the establishment of a quality service. Te percentage availability and fade margin provide assurance of the link's quality and reliability, guaranteeing interferencefree communication [21][22][23][24][25][26][27][28][29][30][31][32][33][34][35][36][37].…”

Section: Discussionmentioning

confidence: 99%

Enhancing Communication Reliability: Designing Microwave Links for Bahir Dar-Woretta Connectivity

Mihretu Adega

2024

Advances in Materials Science and Engineering

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This paper explores the need for establishing a microwave link between Bahir Dar and Woretta as an alternative communication solution to the existing optical fiber infrastructure. Microwave links offer an effective way to overcome challenges posed by rugged terrains and unfavorable environmental conditions that hinder the deployment of fiber optics. As Woretta emerges as a key economic and investment hub within the Amhara Region, demand for reliable and efficient communication is expected to grow significantly. The study encompasses various aspects of planning and designing the microwave link, including site surveys, consideration of fade margins, frequency planning, link budget calculations, and assessing the feasibility and reliability of the proposed link. The paper employs LINKPlanner 5.4.1 software to simulate and validate the results. Due to terrain constraints, a direct link between Bahir Dar and Woretta is not feasible. Instead, a two-hop link is proposed, involving transmission from Bahir Dar to Zege, and then from Zege to Woretta. This alternative configuration ensures optimal connectivity while addressing the terrain limitations. By presenting a comprehensive analysis and simulation of the microwave link, this paper provides valuable insights into the planning and implementation of a robust communication infrastructure. The proposed microwave link will offer a reliable and efficient alternative to the existing optical fiber network, ensuring uninterrupted connectivity to support the region’s growth and development.

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“…However, rain attenuation and the associated rain fade have continued to pose serious challenges to communication at microwave frequencies. In the design of telecommunication systems, the dynamic characteristics of fading due to atmospheric effects are essential in order to optimize system capacity and meet quality and reliability of signal reception (Shoewu and Edeko 2011).…”

Section: Introductionmentioning

confidence: 99%

Rain Fade Analysis at C, Ka and Ku Bands in Nigeria

2019

JEES

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Rain fade has continued to be a major concern to communication systems designers. The effect of these dynamic fluctuations of the received signal due to rain is very pronounced in the tropical region. This paper pertains to the analysis of rain fades at C, Ku and Ka bands at some selected stations covering the main geographical zones of Nigeria. The ITU-RP propagation model was used to calculate the fade depth at 6 GHz, 8 GHz, 12 GHz, 16 GHz, 20 GHz, 30 GHz and 40 GHz. The rain fade correlate with signal attenuation. Attenuation distributions for percentages of time for signal unavailability were also estimated. The results show that values of attenuation for vertically and circularly polarized signals are less than those of the horizontal polarization at all the frequencies. It is found that rain fade is less severe in the Northern part of the country and is most severe in the southern part of Nigeria, with Port Harcourt, Lagos and Nsukka experiencing the highest rain impairment.

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Microwave signal attenuation at 7.2GHz in Rain and Harmattan Weather

Cited by 5 publications

References 4 publications

Effect of Some Meteorological Variables and Conditions on Mobile Phone and 'TV' Satellite Signal

Effect of Some Meteorological Variables and Conditions on Mobile Phone and 'TV' Satellite Signal

Enhancing Communication Reliability: Designing Microwave Links for Bahir Dar-Woretta Connectivity

Rain Fade Analysis at C, Ka and Ku Bands in Nigeria

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