References
- Saunders SR, Bonar FR. Explicit multiple building diffraction attenuation function for mobile radio wave propagation. Electron Lett. 1991;27(14):1276–1277.10.1049/el:19910799
- Juan-Llácer L, Cardona N. UTD solution for the multiple building diffraction attenuation function for mobile radiowave propagation. Electron Lett. 1997;33(1):92–93.10.1049/el:19970058
- Rodriguez J-V, Molina-Garcia-Pardo J-M, Juan-Llacer L. A hybrid UTD-PO solution for multiple-cylinder diffraction analysis assuming spherical-wave incidence. IEEE Trans Antennas Propag. 2008;56(9):3078–3081.10.1109/TAP.2008.928817
- Jay Y, Liu D, Bird NC. Guest editorial for the special issue on antennas and propagation aspects of 60–90 GHz wireless communications. IEEE Trans Antennas Propag. 2009;57(10):2817–2819.
- Smulders P. Exploiting the 60 GHz band for local wireless multimedia access: prospects and future directions. IEEE Commun Mag. 2002;40(1):140–147.10.1109/35.978061
- Smulders P, Yang H, Akkermans I. On the design of low-cost 60-GHz radios for multigigabit-per-second transmission over short distances [topics in radio communications]. IEEE Commun Mag. 2007;45(12):44–51.10.1109/MCOM.2007.4395364
- McNamara DA, Pisturius CW, Malherbe JAG. Introduction to the uniform geometrical theory of diffraction. Boston (MA): Artech House; 1990.
- Rodrı́guez JV, Molina-Garcı́a-Pardo JM, Juan-Llácer L. Comparison of spherical against plane-wave incidence assumption in prediction of over-rooftop multiple-building diffraction. IET Microwaves Antennas Propag. 2007;1(3):729–732.10.1049/iet-map:20060178