Path loss model for wireless narrowband communication above flat phantom
L Roelens, S Van den Bulcke, W Joseph, G Vermeeren… - Electronics Letters, 2006 - IET
Electronics Letters, 2006•IET
A new empirical path loss model for wireless communication at 2.4 GHz above a flat, lossy
medium, representing human tissue, is presented. The model is valid for dipole antennas for
heights up to 5 cm above the phantom and for distances up to 40 cm, and was applied to
muscle and brain simulating media. For antennas placed close to the lossy medium, it was
found that antenna height has a major influence on path loss. The model has been validated
by measurements and simulations, which show excellent agreement.
medium, representing human tissue, is presented. The model is valid for dipole antennas for
heights up to 5 cm above the phantom and for distances up to 40 cm, and was applied to
muscle and brain simulating media. For antennas placed close to the lossy medium, it was
found that antenna height has a major influence on path loss. The model has been validated
by measurements and simulations, which show excellent agreement.
A new empirical path loss model for wireless communication at 2.4 GHz above a flat, lossy medium, representing human tissue, is presented. The model is valid for dipole antennas for heights up to 5 cm above the phantom and for distances up to 40 cm, and was applied to muscle and brain simulating media. For antennas placed close to the lossy medium, it was found that antenna height has a major influence on path loss. The model has been validated by measurements and simulations, which show excellent agreement.
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