A novel mathematical model for complex humidity profile variation with elevation

Essam Hassan; Jamil Bakhashwain; Hassan Ragheb

doi:10.1109/ICCSPA.2013.6487231

A novel mathematical model for complex humidity profile variation with elevation

Essam Hassan^*, Jamil Bakhashwain, Hassan Ragheb

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Free space propagation of communication signals under anomalous weather conditions is unpredicted and may result in very strong signals at certain locations and almost complete blackout at others. This is due to the abnormal refractive index prevailing in the area as a result of the variation of the humidity levels with altitude. In this paper, existing models describing the variations of the humidity profile with altitude which are crucial in predicting the signal strength in space are presented and discussed. It is shown that these models cannot properly describe complex profiles such as those prevailing in high humidity areas like the Caribbean or the Arabian Gulf area. A new mathematical model is suggested to meet the needs for such complex profiles and it is shown that this new model is capable of representing any natural humidity profile accurately without creating false inversion layers as is the case with other models. The new model is applied to the problem of space wave propagation and locations of field strength and weakness are identified.

Original language	English
Title of host publication	2013 1st International Conference on Communications, Signal Processing and Their Applications, ICCSPA 2013
DOIs	https://doi.org/10.1109/ICCSPA.2013.6487231
State	Published - 2013

Publication series

Name	2013 1st International Conference on Communications, Signal Processing and Their Applications, ICCSPA 2013

Keywords

anomalous propagation
ducting phenomenon
signal coveraget

ASJC Scopus subject areas

Computer Networks and Communications
Signal Processing

Access to Document

10.1109/ICCSPA.2013.6487231

Cite this

Hassan, E., Bakhashwain, J., & Ragheb, H. (2013). A novel mathematical model for complex humidity profile variation with elevation. In 2013 1st International Conference on Communications, Signal Processing and Their Applications, ICCSPA 2013 Article 6487231 (2013 1st International Conference on Communications, Signal Processing and Their Applications, ICCSPA 2013). https://doi.org/10.1109/ICCSPA.2013.6487231

@inproceedings{fed5396bd857477d953d3e6445fae8ba,

title = "A novel mathematical model for complex humidity profile variation with elevation",

abstract = "Free space propagation of communication signals under anomalous weather conditions is unpredicted and may result in very strong signals at certain locations and almost complete blackout at others. This is due to the abnormal refractive index prevailing in the area as a result of the variation of the humidity levels with altitude. In this paper, existing models describing the variations of the humidity profile with altitude which are crucial in predicting the signal strength in space are presented and discussed. It is shown that these models cannot properly describe complex profiles such as those prevailing in high humidity areas like the Caribbean or the Arabian Gulf area. A new mathematical model is suggested to meet the needs for such complex profiles and it is shown that this new model is capable of representing any natural humidity profile accurately without creating false inversion layers as is the case with other models. The new model is applied to the problem of space wave propagation and locations of field strength and weakness are identified.",

keywords = "anomalous propagation, ducting phenomenon, signal coveraget",

author = "Essam Hassan and Jamil Bakhashwain and Hassan Ragheb",

year = "2013",

doi = "10.1109/ICCSPA.2013.6487231",

language = "English",

isbn = "9781467328210",

series = "2013 1st International Conference on Communications, Signal Processing and Their Applications, ICCSPA 2013",

booktitle = "2013 1st International Conference on Communications, Signal Processing and Their Applications, ICCSPA 2013",

}

Hassan, E, Bakhashwain, J & Ragheb, H 2013, A novel mathematical model for complex humidity profile variation with elevation. in 2013 1st International Conference on Communications, Signal Processing and Their Applications, ICCSPA 2013., 6487231, 2013 1st International Conference on Communications, Signal Processing and Their Applications, ICCSPA 2013. https://doi.org/10.1109/ICCSPA.2013.6487231

A novel mathematical model for complex humidity profile variation with elevation. / Hassan, Essam; Bakhashwain, Jamil; Ragheb, Hassan.
2013 1st International Conference on Communications, Signal Processing and Their Applications, ICCSPA 2013. 2013. 6487231 (2013 1st International Conference on Communications, Signal Processing and Their Applications, ICCSPA 2013).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - A novel mathematical model for complex humidity profile variation with elevation

AU - Hassan, Essam

AU - Bakhashwain, Jamil

AU - Ragheb, Hassan

PY - 2013

Y1 - 2013

N2 - Free space propagation of communication signals under anomalous weather conditions is unpredicted and may result in very strong signals at certain locations and almost complete blackout at others. This is due to the abnormal refractive index prevailing in the area as a result of the variation of the humidity levels with altitude. In this paper, existing models describing the variations of the humidity profile with altitude which are crucial in predicting the signal strength in space are presented and discussed. It is shown that these models cannot properly describe complex profiles such as those prevailing in high humidity areas like the Caribbean or the Arabian Gulf area. A new mathematical model is suggested to meet the needs for such complex profiles and it is shown that this new model is capable of representing any natural humidity profile accurately without creating false inversion layers as is the case with other models. The new model is applied to the problem of space wave propagation and locations of field strength and weakness are identified.

AB - Free space propagation of communication signals under anomalous weather conditions is unpredicted and may result in very strong signals at certain locations and almost complete blackout at others. This is due to the abnormal refractive index prevailing in the area as a result of the variation of the humidity levels with altitude. In this paper, existing models describing the variations of the humidity profile with altitude which are crucial in predicting the signal strength in space are presented and discussed. It is shown that these models cannot properly describe complex profiles such as those prevailing in high humidity areas like the Caribbean or the Arabian Gulf area. A new mathematical model is suggested to meet the needs for such complex profiles and it is shown that this new model is capable of representing any natural humidity profile accurately without creating false inversion layers as is the case with other models. The new model is applied to the problem of space wave propagation and locations of field strength and weakness are identified.

KW - anomalous propagation

KW - ducting phenomenon

KW - signal coveraget

UR - https://www.scopus.com/pages/publications/84876055944

U2 - 10.1109/ICCSPA.2013.6487231

DO - 10.1109/ICCSPA.2013.6487231

M3 - Conference contribution

AN - SCOPUS:84876055944

SN - 9781467328210

T3 - 2013 1st International Conference on Communications, Signal Processing and Their Applications, ICCSPA 2013

BT - 2013 1st International Conference on Communications, Signal Processing and Their Applications, ICCSPA 2013

ER -

Hassan E, Bakhashwain J, Ragheb H. A novel mathematical model for complex humidity profile variation with elevation. In 2013 1st International Conference on Communications, Signal Processing and Their Applications, ICCSPA 2013. 2013. 6487231. (2013 1st International Conference on Communications, Signal Processing and Their Applications, ICCSPA 2013). doi: 10.1109/ICCSPA.2013.6487231

A novel mathematical model for complex humidity profile variation with elevation

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