by Kim Horner,University of Texas at Dallas

Biomedical engineering senior Ian Y. Kim wears a motion capture suit during an experiment in the Neuromuscular and Musculoskeletal Biomechanics Lab at The University of Texas at Dallas. Credit: The University of Texas at Dallas

Research from a team at the University of Texas at Dallas shows the potential for detecting mental health disorders by analyzing the way a person moves. Using 3D motion capture and machine-learning models, researchers were able to identify elevated depression and anxiety symptoms in subjects from the way they walked and got up from a chair. The findings,publishedinGait & Posture, demonstrate the potential for developing wearable devices that one day could give users early warnings about their mental health.

"Our study showed that depression and anxiety can be identified from human movement," said Dr. Gu Eon Kang, assistant professor of bioengineering in the Erik Jonsson School of Engineering and Computer Science. "Gait analysis could offer an objective method for evaluating mental health."

Using gait analysis to identify mental health issues and emotional states is an emerging area of research. Kang cautioned, however, thatwearable mental health-screening technologycould serve as an indicator—not a replacement—for a professional diagnosis.

"If we can detect potential issues, people can seek treatment early and outcomes could be much better," he said.

Kang said the research could also have other applications, such as helping animators better illustrate emotion.

Researchers in Kang's Neuromuscular and Musculoskeletal Biomechanics Lab recruited 30 young adults for the study and assessed their levels of depression and anxiety using standardized questionnaires. Participants performed walking and sit-to-walk tasks while wearing a black form-fitting motion capture suit covered with 68 reflective markers. Their movements were recorded by a 16-camera motion capture system.

Researchers trained a machine-learning model using data from participants' movements combined with information about whether they fell into higher- or lower-symptom groups for depression or anxiety, based on their questionnaires. Then, they asked the model to predict the mental state of other participants on whose data the system had not been trained.

The modelcorrectly classifiedwalking participants about 75% of the time, and using sit-to-walk tasks, 77% of the time.

The computer screen shows the marker trajectory during a motion capture experiment at The University of Texas at Dallas. Credit: The University of Texas at Dallas

Angeloh Stout, a biomedical engineering doctoral student in Kang's lab and a first author of the study, said that as a former high school student athlete, he became interested in the research after taking Kang's biomechanics class. Stout, who helped set up Kang's lab, said he was surprised by the changes in how people walked depending on their emotional state.

"You expect someone to walk slower when they're sad. But what's interesting to see is the different body responses that occur," Stout said. "Subjects with higher depression and anxiety scores showed subtle but measurable differences from subjects with lower scores in how their joints moved, along with greater hesitation during transitions like standing up to walk."

Stout and other researchers in Kang's lab had previouslypublisheda study inGait & Posturethat found a person's gait can also provide insight into their emotional state.

In that study, participants were asked to recall memories to elicit five emotions: anger, sadness, joy, fear, and a neutral state. Then, researchers captured their gait patterns in the lab. The model was about 59% accurate in distinguishing between emotional states and detected sadness with 66% accuracy.

While additional research with more subjects needs to be done to improve the method, Kang said the team's study demonstrates the possibility for an objective measure of human emotion.

"Believe it or not, gait may be the most reliable modality for detecting emotion," he said.

Kang said he became interested in studying gait as a way to combine his longtime interest in psychology with engineering. His goal is to determine whether gait analysis can also be used to provide early warnings about other mental health issues such as bipolar disorder and neurodevelopmental conditions such as attention-deficit/hyperactivity disorder.

More information Angeloh Stout et al, Feasibility of machine learning classification of depression and anxiety symptoms among college students using 3D gait and sit-to-walk biomechanics, Gait & Posture (2026). DOI: 10.1016/j.gaitpost.2026.110123 Angeloh Stout et al, Emotion classification using gait biomechanics and machine learning, Gait & Posture (2026). DOI: 10.1016/j.gaitpost.2025.110055