Kukolev, P., Chandra, A., Mikusalek, T., Prokes, A., Zemen, T., & Mecklenbräuker, C. (2015). In-vehicle Channel Sounding in the 5.8 GHz Band. EURASIP Journal on Wireless Communications and Networking, 2015(57). https://doi.org/10.1186/s13638-015-0273-x
EURASIP Journal on Wireless Communications and Networking
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ISSN:
1687-1472
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Date (published):
2015
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Number of Pages:
9
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Publisher:
Springer
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Peer reviewed:
Yes
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Keywords:
Computer Science Applications; Signal Processing; Computer Networks and Communications; Intra-vehicle channel; IEEE802.11p; Channel sounding; Ultra-wideband; Power delay profile; Bit error rate
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Abstract:
The article reports vehicular channel measurements in the frequency band of 5.8 GHz for IEEE 802.11p standard. Experiments for both intra-vehicle and out-of-vehicle environments were carried out. It was observed that the large-scale variations (LSVs) of the power delay profiles (PDPs) can be best described through a two-term exponential decay model, in contrast to the linear models which are suitable for popular ultra-wideband (UWB) systems operating in the 3- to 11-GHz band. The small-scale variations (SSVs) are separated from the PDP by subtracting the LSV and characterized utilizing logistic, generalized extreme value (GEV), and normal distributions. Two sample Kolmogorov- Smirnov (K-S) tests validated that the logistic distribution is optimal for in-car, whereas the GEV distribution serves better for out-of-car measurements. For each measurement, the LSV trend was used to construct the respective channel impulse response (CIR), i.e., tap gains at different delays. Next, the CIR information is fed to an 802.11p simulation testbed to evaluate the bit error rate (BER) performance, following a Rician model. The BER results strongly vouch for the suitability of the protocol for in-car as well as out-of-car wireless applications in stationary environments.
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Project title:
Christian Doppler Lab "Wireless Technologies for Sustainable Mobility" (CDG Christian Doppler Forschungsgesellschaft)