Mody University International Journal of Computing and Engineering Research

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Free Space Path Loss Statistics of 35 GHz Wave Prevailing in Desert Region of India


Affiliations
1 Government Engineering College, Bikaner, India
2 Mody University of Science & Technology, Lakshmangarh, India
3 Govt. Polytechnic College, Bikaner, India
 

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Free space path loss equation derived from Friis transmission relations is verified and validated for lower frequency range. At higher frequencies with wavelengths in millimeters, Friis equation lose its validation as the gap between experimental and theoretical values of loss are huge. About 28.02 dB of difference in every value of loss is been observed. In this paper an attempt is made to present the comparison between the theoretical and observed losses at millimeter wave based on free space loss equation. Behavior of curve for theoretical and observed values of loss is almost similar. The represented data can further be used for advance modelling and approximation of FSPL at millimeter waves.
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Abstract Views: 136

PDF Views: 89




  • Free Space Path Loss Statistics of 35 GHz Wave Prevailing in Desert Region of India

Abstract Views: 136  |  PDF Views: 89

Authors

Indu Bhuria
Government Engineering College, Bikaner, India
Rajeev Pourush
Mody University of Science & Technology, Lakshmangarh, India
D. R. Godara
Govt. Polytechnic College, Bikaner, India

Abstract


Free space path loss equation derived from Friis transmission relations is verified and validated for lower frequency range. At higher frequencies with wavelengths in millimeters, Friis equation lose its validation as the gap between experimental and theoretical values of loss are huge. About 28.02 dB of difference in every value of loss is been observed. In this paper an attempt is made to present the comparison between the theoretical and observed losses at millimeter wave based on free space loss equation. Behavior of curve for theoretical and observed values of loss is almost similar. The represented data can further be used for advance modelling and approximation of FSPL at millimeter waves.

References