Characterization of measured indoor off-body MIMO channels with correlated fading, correlated shadowing and constant path loss
- Author
- Patrick Van Torre (UGent) , Luigi Vallozzi (UGent) , Lennert Jacobs (UGent) , Hendrik Rogier (UGent) , Marc Moeneclaey (UGent) and Jo Verhaevert (UGent)
- Organization
- Abstract
- Indoor off-body wireless MIMO links between a mobile user equipped with wearable textile patch antennas and a fixed base station exhibit specific channel behavior due to the near presence and movements of the human body. Therefore, they require a dedicated channel model that captures the effects of correlated small-scale Rayleigh fading and correlated lognormal shadowing. A methodology is presented to construct such a model, allowing to predict the bit error characteristics and channel capacity curves based on the shadowing and fading correlation matrices that are extracted from channel measurements. It is shown that by separating shadowing, including effects caused by movement and reorientation of the human body, from small-scale fading, the main mechanisms of the off-body communication link are accurately captured by the model. A clear dependence of the shadowing correlation values on the physical layout of the antenna system is found. In our measurements, shadowing is not significantly decorrelated by polarization diversity or front-to-back diversity whereas the small-scale fading is clearly decorrelated. From the model, MIMO channel realizations with identical bit error rate and channel capacity characteristics as the measured channel can be quickly generated for link emulation purposes.
- Keywords
- POLARIZATION DIVERSITY, WIRELESS COMMUNICATIONS, CORRELATION MODELS, RADIO CHANNEL, BER ANALYSIS, ANTENNA, SYSTEMS, FEASIBILITY, PERFORMANCE, CAPACITY, MIMO systems, MIMO channel, body-centric communications
Downloads
-
(...).pdf
- full text
- |
- UGent only
- |
- |
- 448.81 KB
Citation
Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-3009268
- MLA
- Van Torre, Patrick, et al. “Characterization of Measured Indoor Off-Body MIMO Channels with Correlated Fading, Correlated Shadowing and Constant Path Loss.” IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS, vol. 11, no. 2, 2012, pp. 712–21, doi:10.1109/TWC.2011.111611.110298.
- APA
- Van Torre, P., Vallozzi, L., Jacobs, L., Rogier, H., Moeneclaey, M., & Verhaevert, J. (2012). Characterization of measured indoor off-body MIMO channels with correlated fading, correlated shadowing and constant path loss. IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS, 11(2), 712–721. https://doi.org/10.1109/TWC.2011.111611.110298
- Chicago author-date
- Van Torre, Patrick, Luigi Vallozzi, Lennert Jacobs, Hendrik Rogier, Marc Moeneclaey, and Jo Verhaevert. 2012. “Characterization of Measured Indoor Off-Body MIMO Channels with Correlated Fading, Correlated Shadowing and Constant Path Loss.” IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS 11 (2): 712–21. https://doi.org/10.1109/TWC.2011.111611.110298.
- Chicago author-date (all authors)
- Van Torre, Patrick, Luigi Vallozzi, Lennert Jacobs, Hendrik Rogier, Marc Moeneclaey, and Jo Verhaevert. 2012. “Characterization of Measured Indoor Off-Body MIMO Channels with Correlated Fading, Correlated Shadowing and Constant Path Loss.” IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS 11 (2): 712–721. doi:10.1109/TWC.2011.111611.110298.
- Vancouver
- 1.Van Torre P, Vallozzi L, Jacobs L, Rogier H, Moeneclaey M, Verhaevert J. Characterization of measured indoor off-body MIMO channels with correlated fading, correlated shadowing and constant path loss. IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS. 2012;11(2):712–21.
- IEEE
- [1]P. Van Torre, L. Vallozzi, L. Jacobs, H. Rogier, M. Moeneclaey, and J. Verhaevert, “Characterization of measured indoor off-body MIMO channels with correlated fading, correlated shadowing and constant path loss,” IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS, vol. 11, no. 2, pp. 712–721, 2012.
@article{3009268, abstract = {{Indoor off-body wireless MIMO links between a mobile user equipped with wearable textile patch antennas and a fixed base station exhibit specific channel behavior due to the near presence and movements of the human body. Therefore, they require a dedicated channel model that captures the effects of correlated small-scale Rayleigh fading and correlated lognormal shadowing. A methodology is presented to construct such a model, allowing to predict the bit error characteristics and channel capacity curves based on the shadowing and fading correlation matrices that are extracted from channel measurements. It is shown that by separating shadowing, including effects caused by movement and reorientation of the human body, from small-scale fading, the main mechanisms of the off-body communication link are accurately captured by the model. A clear dependence of the shadowing correlation values on the physical layout of the antenna system is found. In our measurements, shadowing is not significantly decorrelated by polarization diversity or front-to-back diversity whereas the small-scale fading is clearly decorrelated. From the model, MIMO channel realizations with identical bit error rate and channel capacity characteristics as the measured channel can be quickly generated for link emulation purposes.}}, author = {{Van Torre, Patrick and Vallozzi, Luigi and Jacobs, Lennert and Rogier, Hendrik and Moeneclaey, Marc and Verhaevert, Jo}}, issn = {{1536-1276}}, journal = {{IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS}}, keywords = {{POLARIZATION DIVERSITY,WIRELESS COMMUNICATIONS,CORRELATION MODELS,RADIO CHANNEL,BER ANALYSIS,ANTENNA,SYSTEMS,FEASIBILITY,PERFORMANCE,CAPACITY,MIMO systems,MIMO channel,body-centric communications}}, language = {{eng}}, number = {{2}}, pages = {{712--721}}, title = {{Characterization of measured indoor off-body MIMO channels with correlated fading, correlated shadowing and constant path loss}}, url = {{http://doi.org/10.1109/TWC.2011.111611.110298}}, volume = {{11}}, year = {{2012}}, }
- Altmetric
- View in Altmetric
- Web of Science
- Times cited: