UMD’s PhD in Electrical Engineering offers deep research opportunities in communications, control systems, RF design, signal processing, and photonics. Students gain expertise in both theoretical analysis and lab-based experimentation to develop next-gen electronic systems.
Design and fabrication of RF antennas for millimeter-wave applications
Study of signal integrity in high-speed digital interconnects
Quantum device simulation for nanoelectronic switching systems
Design of adaptive filters for cognitive radio systems
Photonic crystal research for ultra-compact light-based circuits
Development of machine learning algorithms for communication channel prediction
Low-power mixed-signal IC design for biomedical devices
Analysis of electromagnetic compatibility in automotive systems
High-frequency amplifier design for radar imaging applications
Design of smart grid interface systems for renewable energy sources
Optimization of wireless sensor networks for industrial monitoring
Investigation of optoelectronic devices for fiber-optic networks
Control algorithm development for multi-drone swarm coordination
Simulation of GaN-based power electronics for EV applications
AI-based classification of biomedical signals in wearable systems
Antenna array design for massive MIMO systems
Development of photonic computing logic elements
Secure communication systems for satellite-ground interfaces
3D integrated circuit design for heterogeneous chip stacking
Study of quantum noise in superconducting circuit elements
Innovate in communications, photonics, and circuits with systems-focused research in UMD’s Electrical Engineering PhD.
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