-
and advanced signal processing to detect cyber threats in real-time while minimizing energy consumption. Digital twins, as virtual replicas of physical systems, enable continuous monitoring and anomaly
-
that enhance efficiency, scalability, and versatility for diverse chiral compounds are necessary. This PhD project will focus on a novel Enantioselective Crystal Floatation process first conceived in
-
applications. The PhD candidate will collaborate with both academic and industry experts, covering a wide range of topics from device design, algorithm developments, signal processing analytics and neuroimaging
-
field. Appropriate professional experience may be considered in lieu of Level 7 qualification. Application process How to apply Candidates must apply by clicking the 'Apply' button, above. Please apply
-
researchers from Northeastern University’s Khoury College of Computer Sciences and the Institute of Experiential AI. The successful candidates will: Have a proven, strong educational background in
-
Language Processing, Data Science, Machine Learning, Mental and Brain Health Project start date: April 2025 Supervisors (*lead): Andreia Sofia Teixeira* (Northeastern University - London) Sukhwinder Singh Shergill