Experimental Verification of a Deterministic UWB Channel Model for Single Room Propagation Scenarios
the author of the article can submit here a request for assignment of a DOI number to this resource!
Cost of the service: euros 10,00 (for a DOI)
This paper investigates the applicability of a simple deterministic ultra-wideband (UWB) multipath propagation model to predict the path loss and root-mean-square delay spread (RDS) of a channel realized between two vertically polarized omnidirectional antennas operating at a same height in an empty room. We assume that a major part of the transmitted power captured by the receiver is carried by a direct line of sight (LOS) ray and a certain number of specularly reflected rays in the azimuthal plane. Another assumption is that a ray is attenuated at each reflection by an average wall reflectivity, a scalar factor which is introduced as a main parameter in the proposed model. A measurement campaign was conducted to verify the reliability of the proposed model. The prediction accuracy was evaluated by means of root-mean-square error (RMSE) analysis, yielding a minimum value of 0.93 dB for path loss predictions and 0.62 ns for RDS predictions at average wall reflectivity of 0.615.
Copyright © 2014 Praise Worthy Prize - All rights reserved.
A.F. Molisch et al., A Comprehensive Standardized Model for Ultrawideband Propagation Channel, IEEE Transactions on Antennas and Propagation, vol. 54 n. 11, November 2006, pp. 3151 – 3166.
A.A.M. Saleh, R. Valenzuela, A Statistical Model for Indoor Multipath Propagation, IEEE Journal on Selected Areas in Communications, vol. 5 n. 2, February 1987, pp. 128 – 137.
G. Tiberi et al., Analysis of Realistic Ultrawideband Indoor Communication Channels by Using an Efficient Ray-Tracing Based Method, IEEE Transactions on Antennas and Propagation, vol. 57 n. 3, March 2009, pp. 777 – 785.
N. Yarkoni, N. Blaunstein, Prediction of Propagation Characteristics in Indoor Radio Communication Environments, Progress in Electromagnetics Research, vol. 59, 2006, pp. 151 – 174.
A. Tayebi et al., The Application of Ray-Tracing to Mobile Localization Using the Direction of Arrival and Received Signal Strength in Multipath Indoor Environments, Progress in Electromagnetics Research, vol. 91, 2009, pp. 1 – 15.
D. Martinez, F. Las-Heras, R.G. Ayestaran, Fast Methods for Evaluating the Electric Field Level in 2D-Indoor Environments, Progress in Electromagnetics Research, vol. 69, 2007, pp. 247 – 255.
N. Sedaghat Alvar, A. Ghorbani, H.R. Amindavar, A Novel Hybrid Approach to Ray Tracing Acceleration Based on Pre-Processing & Bounding Volumes, Progress in Electromagnetics Research, vol. 82, 2008, pp. 19 – 32.
W.Q. Malik, C.J. Stevens, D.J. Edwards, Spatio-temporal Ultrawideband Indoor Propagation Modelling by Reduced Complexity Geometric Optics, IET Communications, vol. 1 n. 4, August 2007, pp. 751 – 759.
C.L. Holloway, M.G. Cotton, P. McKenna, A Model for Predicting the Power Delay Profile Characteristics Inside a Room, IEEE Transactions on Vehicular Technology, vol. 48 n. 4, July 1999, pp. 1110 – 1120.
J.T.E. McDonnel, T.P. Spiller, T.A. Wilkinson, RMS Delay Spread in Indoor LOS Environments at 5.2 GHz, Electronics Letters, vol. 34 n. 11, May 1998, pp. 1149 – 1150.
J. Hansen, An Analytical Calculation of Power Delay Profile and Delay Spread with Experimental Verification, IEEE Communications Letters, vol. 7 n. 6, June 2003, pp. 257 – 259.
A. Safaai-Jazi et al., Report on Through-the-Wall Propagation and Material Characterization, Tech. Report, Virginia Polytechnic Institute and State University, Blacksburg, VA, 2002.
M.-G. Di Benedetto et al., UWB Communication Systems: A Comprehensive Review (Hindawi Publishing Corporation, 2006).
L.E. Miller, Why UWB? A Review of Ultrawideband Technology, Tech. Report, National Institute of Standards and Technology, Gaithersburg, MD, 2003
J.F. Kaiser, R.W. Schafer, On the Use of the Io-sinh Window for Spectrum Analysis, IEEE Transactions on Acoustics, Speech and Signal Processing, vol. 28, n. 1, February 1980, pp. 105 – 107.
Z. Blažević, I. Zanchi, I. Marinović, Propagation Measurements at 2.4 GHz Inside a University Building and Estimation of Saleh-Valenzuela Parameters, Journal of Communication Software and Systems, vol. 3, n 2, 2007, pp. 99 – 107.
M.S. Varela, M.G. Sanchez, RMS Delay and Coherence Bandwidth Measurements in Indoor Radio Channels in the UHF Band, IEEE Transactions on Vehicular Technology, vol. 50, n. 2, March 2001, pp. 515 – 525.
- There are currently no refbacks.
Please send any question about this web site to firstname.lastname@example.org
Copyright © 2005-2020 Praise Worthy Prize