Farah Salah
Papers
2
Total Citations
9
H-Index
2
About
Farah Salah is a telecommunications researcher whose work focuses on the intersection of next-generation wireless networks and industrial automation, with a particular emphasis on Ultra-Reliable Low-Latency Communication (URLLC) in 5G systems. Her research addresses one of the most demanding challenges in modern wireless engineering: ensuring that 5G networks can reliably support mission-critical machine-type communication in factory environments where failures are not an option. Her most cited work, "Reliability and Availability Enhancements of the 5G Connectivity for Factory Automation" (2019), has garnered 6 citations and investigates how 5G can natively meet the stringent requirements of industrial automation use cases. Complementing this, her 2018 study on multi-transmission and reception points (Multi-TRxPs) for industrial automation explores how multi-cell 5G architectures can support mobile robots operating under URLLC constraints, accumulating 3 citations. Salah's contributions are particularly valuable for researchers and engineers working at the frontier of Industry 4.0, as she bridges theoretical 5G network design with practical deployment considerations for smart manufacturing environments. Her work lays important groundwork for the reliable wireless connectivity that autonomous industrial systems will depend upon.
Research Focus
Key Achievements
Top Papers
- 1
- 2Multi-TRxPs for Industrial Automation with 5G URLLC Requirements3 citations · 2018