Advanced deep learning-based computational offloading for multilevel vehicular edge-cloud computing networks

M Khayyat, IA Elgendy, A Muthanna… - IEEE …, 2020 - ieeexplore.ieee.org
The promise of low latency connectivity and efficient bandwidth utilization has driven the
recent shift from vehicular cloud computing (VCC) towards vehicular edge computing (VEC) …
被引用次数:102 相关文章

Advanced Deep Learning-Based Computational Offloading for Multilevel Vehicular Edge-Cloud Computing Networks

M Khayyat, IA Elgendy, A Muthanna, AS Alshahrani… - IEEE …, 2020 - ksascholar.dri.sa
The promise of low latency connectivity and efficient bandwidth utilization has driven the
recent shift from vehicular cloud computing (VCC) towards vehicular edge computing (VEC) …
[PDF] researchgate.net

[PDF][PDF] Advanced Deep Learning-based Computational Offloading for Multilevel Vehicular Edge-Cloud Computing Networks

M KHAYYAT, IA ELGENDY, A MUTHANNA… - researchgate.net
The promise of low latency connectivity and efficient bandwidth utilization has driven the
recent shift from vehicular cloud computing (VCC) towards vehicular edge computing (VEC) …

Advanced Deep Learning-Based Computational Offloading for Multilevel Vehicular Edge-Cloud Computing Networks

M Khayyat, IA Elgendy, ASA Mutkhanna, AS Alshahrani… - IEEE Access, 2020 - elibrary.ru
The promise of low latency connectivity and efficient bandwidth utilization has driven the
recent shift from vehicular cloud computing (VCC) towards vehicular edge computing (VEC) …

[引用][C] Advanced Deep Learning-Based Computational Offloading for Multilevel Vehicular Edge-Cloud Computing Networks

M Khayyat, IA Elgendy, A Muthanna, A Koucheryavy… - IEEE Access, 2020 - elibrary.ru
This work was funded by the University of Jeddah, Saudi Arabia, under grant No.(UJ-02-016-
ICGR). The authors, therefore, acknowledge the University's technical and financial support …