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Bioengineering Blog Posts

Smart(er) Healthcare: Designing RFID Tags for Biomedical Applications

April 19, 2018

Bioengineering meets RF simulation in this blog post about designing RFID systems that can be used for safe and optimized patient care.

Analyzing the Deformation of a Biomedical Stent with Simulation

February 13, 2018

By studying deformation in an arterial stent, biomedical engineers can account for unwanted effects like dogboning and foreshortening long before the device is ever implanted.

Analyzing a MEMS-Based Strain Gauge Design with Simulation

January 19, 2018

MEMS-based strain gauges are helpful in both civil engineering and biomedicine. Read about a team of researchers who used the MEMS Module to analyze strain gauge designs.

Analyzing the Mechanical Behavior of Cells for Biological Applications

January 11, 2018

Finite element modeling can be used to analyze the mechanical behavior of biological cells. Guest blogger Björn Fallqvist of Lightness by Design sheds light on this bioengineering topic.

Optimizing a Microlens Design for Optogenetics Applications

November 22, 2017

Optogenetics is a field of study that could shed light on neurology and memory. To design an optimized microlens for optogenetics uses, these researchers turned to multiphysics simulation.

Analyzing a New Droplet-Forming Fluidic Junction with Simulation

September 8, 2017

A novel oscillatory microfluidic junction design, called a “batwing”, is improving the field of droplet microfluidics by consistently producing uniform and complex double-emulsion droplets.

Using Simulation to Study Ultrasound Focusing for Clinical Applications

August 31, 2017

Guest blogger Thomas Clavet of EMC3 Consulting discusses the simulation of ultrasound focusing via phased array and geometrically focused probe designs for clinical uses.

Designing Accurate EMC/EMI Testing Equipment with RF Modeling

August 14, 2017

EMI/EMC testing is used to ensure that various products, processes, and systems meet standard compliance requirements. RF modeling can be used to design equipment for accurate analyses.