Anthony Grbic receives David E. Liddle Research Excellence AwardGrbic is a world leader in the development of metamaterials and metasurfaces, and his pioneering work has led to ultra-thin electromagnetic devices with revolutionary capabilities.
First digital single-chip millimeter-wave beamformer will exploit 5G capabilities
The digital beamforming chip offers significant advantages over current analog beamforming solutions.
Zhanni Wu awarded Rackham Predoctoral Fellowship
Wu is working on advanced metasurfaces, which could help next-generation wireless communication, commercial and military radar systems, imaging, and antenna systems.
Wireless Communication Under the Sea
U-M researchers have created a new means of enabling reliable wireless underwater communication, which could aid military, environmental, and conservation purposes.
Six teams of ECE researchers make the finals at AP-S/URSI 2019
Second Prize overall went to doctoral student Xiuzhang Cai for his radar target classification research applicable to autonomous vehicles.
Time-varying metamaterials for next generation communication, sensing, and defense systems
With $7.5M MURI grant, Professor Anthony Grbic is developing metamaterials for a new generation of integrated electromagnetic and photonic systems.
Using drones, a new software tool can bring LTE networks anywhere
SkyCore is a complete software solution to deploying mobile networks on unmanned drones
Solving impossible equations
Eric Michielssen has discovered a new way to rapidly analyze electromagnetic phenomena, and it’s catching on.
SMAP Update: A mission to manage water globally
The satellite mission to collect global data of surface soil moisture can help weather forecasting around the world.
An award winning radar system for collision avoidance and imaging
Armin’s research is focused on the development of a sub-millimeter-wave radar system for the next generation of navigation and imaging sensors.
A new way to test low-frequency antennas for long-range communication
Choi has developed a new technique for testing these antennas based on very-near-field measurements and a newly-developed, high-precision formula to compute the antenna’s radiation fields.
Injectable computers can broadcast from inside the body
This platform has enabled a variety of sensors that can fit inside the human body, made possible by several breakthroughs in ultra-low power computing.
Prof. Anthony Grbic elected IEEE Fellow for contributions to the theory and design of electromagnetic metamaterials
Prof. Grbic specializes in the broad fields of electromagnetics and optics, with interests ranging from fundamental electromagnetic theory to microwave circuits.
Gurkan Gok receives Paper Award for making better antenna beams
Gok’s developed antenna system promises a large bandwidth of operation and a wide angle of coverage.
Jiangfeng Wu receives Best Paper Award for research in safe fracking
The Mikio Takagi Student Prize is given to the top three Student Prize Paper Awards granted at the IEEE International Geoscience and Remote Sensing Symposium.
Chia-Hsiang Chen awarded Intel PhD Fellowship
Chia-Hsiang’s research focuses on designing low-power and error-resilient circuit techniques for digital signal processing applications.
Student Research: Amit Patel earns prize in IEEE AP-S Student Paper Competition for antenna research
The method can be useful in the design of low-profile antennas integrated into body panels of vehicles.
Fikadu Dagefu receives 2011 Lincoln Lab Fellowship
The applications Dagefu’s research include wireless channel characterization, radar through-wall imaging, and distributed sensor networks.
Using imprint processing to mass-produce tiny antennas could improve wireless electronics
The antenna is typically the largest wireless component in mobile devices, and shrinking it could leave more room for other gadgets and features.