How Wearable Sensors Will Transform the Practice of Medicine

Fast, accurate, and painless breast-cancer screening

Telescopes that instantaneously follow up on their observations and generate images

A statewide model that enables communities to respond more effectively to increasing and more intense droughts

How to make sense of data

Sensing to Intelligence

Center for Sensing to Intelligence

Explore the Center for Sensing to Intelligence

Sensing to Intelligence: Human Health

Sensing to Intelligence: Scientific Discovery

Sensing to Intelligence: Sustainability

Grand Challenges, Unconventional Approaches

Faculty Who Push Frontiers

The Power of Philanthropy

News

a chip with multiple horizontal channels has one lit up green. An optical fiber extends from the chip to the left.

September 12, 2025

Uniting the Light Spectrum on a Chip

Alireza Marandi's group has developed a highly efficient method to provide coherent light of any wavelength from visible to mid-infrared with a single tiny device

An impressionistic illustration of a brain-machine interface. On a dark background are shown blue glial cells, and orange electrical wave pattern, and an implant that allows communication between neurons and an external computer.

December 6, 2024

Improving Brain–Machine Interfaces with Machine Learning

Through machine learning, Caltech researchers have improved the performance and lifetime of implants for brain–machine interfaces.

One man is putting a headset-based device on another man who is sitting in a chair in front of him. The man in the chair is wearing sunglasses

September 30, 2024

New Laser-based Headset Can Measure Blood Flow, Assess Risk of Stroke

Researchers in the lab of Caltech's Changhuei Yang, along with colleagues from the Keck School of Medicine of USC, have developed a laser-based device that can measure blood flow noninvasively and differentiate stroke risk based on current physiological conditions.

May 20, 2024

How Wearable Sensors Will Transform the Practice of Medicine

A zebrafish is shown imaged in rainbow colors related to light transmittance.

March 19, 2024

Using Polarization to Improve Quantum Imaging

A new technique takes advantage of specially linked, or entangled, photon pairs to obtain higher-resolution images of samples, including biological materials.

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Andrew and Peggy Cherng Professor of Electrical Engineering and Medical Engineering; Executive Officer for Electrical Engineering; Director, Center for Sensing to Intelligence

Azita Emami

We have a unique opportunity at Caltech to transform the way we connect the information world with the physical world, and that can lead to a whole new generation of smart devices and instruments.

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Bren Professor of Medical Engineering and Electrical Engineering; Andrew and Peggy Cherng Medical Engineering Leadership Chair; Executive Officer for Medical Engineering

Lihong Wang

This is the only single-breath-hold technology that gives us high-contrast, high-resolution, 3-D images of the entire breast. Our goal is to build a dream machine for breast screening, diagnosis, monitoring, and prognosis [that is] fast, painless, safe, and inexpensive.

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Assistant Professor of Medical Engineering; Investigator, Heritage Medical Research Institute; Ronald and JoAnne Willens Scholar

Wei Gao

Wearable sweat sensors have the potential to rapidly, continuously, and noninvasively capture changes in health at molecular levels. They could enable personalized monitoring, early diagnosis, and timely intervention.

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