The manuscript reports for the first time the analyses based on experimental investigation of hybrid free-space optical and visible light communications (FSO/VLC) system with the multiband carrier-less amplitude and phase modulation (m-CAP), which is an alternative optical wireless technology covering both the last mile and the last meter access networks. The focus of the paper is on the analysis of this hybrid FSO/VLC for a range of FSO/VLC links lengths, turbulence influence m-CAP modulation

In this paper, a hybrid free-space optical and visible light communication (FSO/VLC) system was experimentally demonstrated as a solution to overcome the last mile and last meter access networks bandwidth bottleneck. We evaluate the system performance of a multiband carrier-less amplitude and phase (m-CAP) modulation scheme for a range of FSO/VLC link lengths and m-CAP parameters (i.e., the roll-off factor of the filters and a number of subcarriers) in terms of the data rate R_b (i.e., spectral efficiency). We show that for the configuration with a 1-m VLC link the 10-CAP offers more than a 40% improvement in the measured R_b compared to 2-CAP for the same bit error rate target. The R_b penalty due to the extension of a VLC-link span from 1 to 3 m reaches to 12.6 Mb/s for the 10-CAP scheme (i.e., ~39% degradation in R_b). To fully cover all aspects of the hybrid FSO/VLC system, we also investigate the atmospheric turbulence effect on the 500-m FSO link where Rb is decreased by 30% for the refractive index structure parameter C_n² of 2.4 × 10^-15 m^-2/3 compared to a clear channel condition.