@article{fulghum_molnar_duel-hallen_2002, place={USA}, title={The jakes fading model for antenna arrays incorporating azimuth spread}, volume={51}, ISSN={["1939-9359"]}, url={http://dx.doi.org/10.1109/TVT.2002.801742}, DOI={10.1109/TVT.2002.801742}, abstractNote={A new method for simulating the multiplicative fading of the narrow-band, flat wireless channel for antenna array receivers is presented. The new approach produces a set of fading waveforms, one waveform associated with each receiver element, in which the waveforms are appropriately correlated to take into account the spread, or dispersion, in the azimuth (arrival angle) of the received signal. The new method is an extension of the Jakes (1974) method of simulating fading in which the appropriate correlation of the set of waveforms is accomplished by directly considering the azimuth of scatterers in a particular distribution about the mobile transmitter. The models used for this cluster of scatterers are a ring and a disk of scatterers. Further modifications of the disk model permit the generation of fading waveforms which are correlated in a manner which reflect actual field measurements of azimuth dispersion. Analytical correlation of these models is reviewed for purposes of verification with the waveforms generated by the method.}, number={5}, journal={IEEE TRANSACTIONS ON VEHICULAR TECHNOLOGY}, author={Fulghum, TL and Molnar, KJ and Duel-Hallen, A}, year={2002}, month={Sep}, pages={968–977} }
 @article{fulghum_molnar_duel-hallen_1997, title={The Jakes fading model incorporating angular spread}, number={7}, journal={TR (Center for Advanced Computing and Communication)}, author={Fulghum, T. L. and Molnar, K. J. and Duel-Hallen, A.}, year={1997} }