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The mission of the Center for Wireless Integrated MicroSensing and Systems (WIMS²) at the University of Michigan is to advance the investigation, development, and application of sensor-enabled microsystems through basic research, education, and interactions with industry. Created in 2000 with support from the National Science Foundation, the Center brings together research in core technologies (such as MEMS, micropower circuits, and RF technology) to facilitate microsystems for healthcare, environmental monitoring, and infrastructure monitoring. The collaborative, multi-disciplinary research environment within WIMS² provides a unique opportunity for system-level investigation of challenging research problems.

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Faculty

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NEWS

Cancer Management: Stent Sensor Can Warn of Blockages in the Bile Duct

Stents to treat various blockages in the human body can themselves become blocked, but a new sensor developed at the University of Michigan for stents that are used in the bile duct may one day help doctors detect and treat stent blockages early, helping keep patients healthier. More

Research Sponsors

The Advanced Energy Consortium (AEC)
DANA Incorporated
Defense Advanced Research Project Agency (DARPA)
ExxonMobil Corporation
Food and Drug Administration (FDA)
Hutchinson S.A.
Intelligence Advanced Research Project Activity (IARPA)
National Institutes of Health (NIH)
National Science Foundation (NSF)
Total S.A.

WIMS² has gone Social

Search Our Publications

Highlighted
Publications

Fantastic Voyage 2
Highlights some of the microsystems pioneered at Michigan between 2000 and 2010

±2PPM Frequency Drift and 300X Reduction of Bias Drift of Commercial 6-Axis Inertial Measurement Units Using a Low-Power Oven-Control Micro Platform [PDF]

Comprehensive Two-Dimensional Gas Chromatographic Separations with a Microfacbricated Thermal Modulator [PDF]

Temperature Compensated Fused Silica Resonators Using Embedded Nickel-Refilled Trenches [PDF]

Fiberless Multicolor Optoelectrodes Using Injection Laser Diodes and Gradient Index Lens Coupled Optical Waveguides [PDF]

A Fully Electronic Microfabricated Gas Chromatograph with Complementary Capacitive Detectors for Indoor Pollutants [PDF]

Circuits for a Cubic-Millimeter Energy-Autonomous Wireless Intraocular Pressure Monitor [PDF]

A GSM-Based Clock-Harvesting Receiver with -87 dBm Sensitivity for Sensor Network Wake-Up [PDF]

Smart Three-Dimensional Gas Chromatography [PDF]

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