Research

Human interfaced sensors and electronics

Wearable Medical Electronics

Soft and deformable electronics can interface with the skin or be implanted in the body for health monitoring, rehabilitation, diagnostic, and treatment applications.

Close-up of a flexible electronic circuit with a small chip, held by gloved hands, against a black background.

Multimaterial Bioelectronics Printing

Printing offers a scalable and versatile way to pattern a diverse set of materials on non-traditional substrates.

Close-up of a surface with petals and fibrous material.

Functional Nanomaterial Engineering

Functional nanomaterials can be fine tuned to yield exceptional electrical, mechanical, and sensing properties. Their unique nanostructures can be cleverly manipulated for advanced sensing tasks.

A flowchart diagram illustrating a deep learning model architecture, including preprocessing of input data through biceps/triceps preprocessing and shoulder/back preprocessing, then passing through multiple model components such as Model_Bicep, Model_Tricep, Model_Shoulder, and Model_Back, followed by data fusion and final output.

Signal Processing and Machine Learning

We design algorithms to glean actionable data from biosignals and control medical devices.

Find a description of our current and completed projects here.