par Molineaux, Guylian 
;Horlin, François ;De Doncker, Philippe ;Sarrazin, Julien S. J.
Référence IEEE transactions on wireless communications, 21, 7, page (5064-5074)
Publication Publié, 2021-12-24
;Horlin, François ;De Doncker, Philippe ;Sarrazin, Julien S. J.Référence IEEE transactions on wireless communications, 21, 7, page (5064-5074)
Publication Publié, 2021-12-24
Article révisé par les pairs
| Résumé : | OFDM-based spatial data focusing (OFDM-SDF) is proposed as a novel means of performing wireless physical layer geocasting, i.e. spatially confined broadcasting. It is shown that this approach overcomes beamforming and directional modulation (DM) limitations by exhibiting higher spatial precision with a reduced number of antennas and offering uncoupled range-angle-dependent focusing. This paper describes the OFDM-SDF system model for multipath channels, including multipath robust equalization, design rules for steering phases and sidelobe mitigation, analytical geocast delivery zone derivation, and optimized symbol mapping. Using density-based clustering of the spatial bit error rate distribution, a procedure for identifying a practical geocast delivery zone and evaluating its precision and connectivity is proposed. OFDM-SDF’s performance and multipath robustness are evaluated through Rice channel simulations as a function of the Rice factor. In particular, it is shown that a 2-antenna OFDM-SDF array matches the radial and angular precision of, respectively, a 6 and 12-antenna DM array in recent literature, while robustness is ensured for 5G small cell channels. |
