@misc{10481/95650, year = {2024}, month = {9}, url = {https://hdl.handle.net/10481/95650}, abstract = {We present a generalization of the notoriously unwieldy second order scattering fading model, which is helpful to alleviate its mathematical complexity while providing an additional degree of freedom. This is accomplished by allowing its dominant specular component associated to line-of-sight propagation to randomly fluctuate. The statistical characterization of the newly proposed model is carried out, providing closed-form expressions for its probability and cumulative distribution functions, as well as for its generalized Laplace-domain statistics and raw moments. We exemplify how performance analysis can be done in this scenario, and discuss the role of the fading model parameters on system performance.}, organization = {European Union and the European Fund for Regional Development FEDER under Grant P18-RT-3175 and Grant EMERGIA20-00297, in part by MCIU/AEI/10.13039/501100011033 under Grant PID2020-118139RB-I00}, organization = {Universidad de Málaga and FEDER under Grant UMA20- FEDERJA-002}, publisher = {Institute of Electrical and Electronics Engineers}, keywords = {Channel modeling}, keywords = {fading models}, keywords = {Rice}, title = {The Second Order Scattering Fading Model With Fluctuating Line-of-Sight}, doi = {10.1109/TVT.2024.3384582}, author = {López-Fernández, Jesús and Anaya López, Gonzalo Javier and López Martínez, Francisco Javier}, }