UAVs & field robotics (KSA)
The Remote Sensing Chair at NBU houses faculty with deep work on intelligent UAVs, visible-light communication, and radar. Published studies include power-efficient multi-UAV coverage in disasters, SAR with passive source localization, multiaxial blade-fault data for multirotor UAVs, and aerial manipulators with robust control — with explicit NBU project acknowledgements in the literature.
SAR + UAV
SAR and passive source localization (ICT Express)³
Multi-UAV
Power-efficient multi-UAV coverage in disasters (Sensors)²
Data
Blade fault open dataset (Scientific Data; CRP-2025-2484)⁴
Aerial
Aerial manipulation and robust control (Frontiers; CRP-2025-289)⁵
Field robots need the same thing regulated software does: evidence, control proofs, and fleet governance — at desert scale.
The partnership pairs Midcore Robotics and Research: simulation and brain pipelines for mission logic, the Outcome Compiler for safety-critical code paths, and Research exports for paper-grade reproducibility.
Public papers already cite NBU-CRP-2025-2484 and NBU-CRP-2025-289; the throughline is the same as enterprise customers — build, measure, publish, repeat.
“Our mandate is the northern border and the real physics of field robots. Midcore is how we connect flights to papers without losing the safety story.”
Quote drafted by Midcore from public partner materials; on file with consent for publication.