Title :
On predicting large scale fading characteristics with the MR-FDPF method
Author :
Luo, Meiling ; Lebedev, Nikolai ; Villemaud, Guillaume ; de la Roche, G. ; Zhang, Jie ; Gorce, Jean-Marie
Author_Institution :
Bus. Competitiveness Centre, Ranplan Wireless Network Design Ltd., Luton, UK
Abstract :
The MR-FDPF (Multi-Resolution Frequency Domain Partial Flow) method is proven to be a fast and efficient method to simulate radio wave propagation. It is a deterministic model which can provide an accurate radio coverage prediction. In reality, radio channels have the nature of randomness due to e.g. moving people or air flow. Thus they can not be rigorously simulated by a pure deterministic model. However, it is believed that some statistics can be extracted from deterministic models and these statistics can be very useful to describe radio channels in reality. In this paper, large scale fading statistical characteristics are extracted based on the MR-FDPF method. They are validated by comparison to both the theoretical result and measurement. The match also demonstrates that MR-FDPF is capable of simulating large scale fading.
Keywords :
fading channels; frequency-domain analysis; radiowave propagation; MR-FDPF method; air flow; deterministic models; large scale fading characteristics prediction; multiresolution frequency domain partial flow method; radio channels; radiowave propagation simulation; Atmospheric modeling; Channel models; Fading; Frequency measurement; Loss measurement; Receivers; Shadow mapping;
Conference_Titel :
Antennas and Propagation (EUCAP), 2012 6th European Conference on
Conference_Location :
Prague
Print_ISBN :
978-1-4577-0918-0
Electronic_ISBN :
978-1-4577-0919-7
DOI :
10.1109/EuCAP.2012.6206282
