Training Program can Help People in Mind-controlled Wheelchairs Navigate Cluttered Spaces
After training for an extended period, tetraplegic (paralysis that affects the cervical spinal cord) users can operate mind-controlled wheelchairs in a natural, cluttered environment.
"We show that mutual learning of both the user and the brain-machine interface algorithm are both important for users to successfully operate such wheelchairs," says Jos� del R. Mill�n, the study's corresponding author at The University of Texas at Austin. "Our research highlights a potential pathway for improved clinical translation of non-invasive brain-machine interface technology."
Mind-Controlled Wheelchair
Mill�n and his colleagues recruited three tetraplegic people for the longitudinal study. Each of the participants underwent training sessions three times per week for 2 to 5 months. The participants wore a skullcap that detected their brain activities through electroencephalography (EEG), which would be converted to mechanical commands for the wheelchairs via a brain-machine interface device. The participants were asked to control the direction of the wheelchair by thinking about moving their body parts. Specifically, they needed to think about moving both hands to turn left and both feet to turn right.‘A mind-controlled wheelchair can help a paralyzed person gain new mobility by translating users� thoughts into mechanical commands.’
In the first training session, three participants had similar levels of accuracy-when the device's responses aligned with users' thoughts-of around 43% to 55%. Over the course of training, the brain-machine interface device team saw significant improvement in accuracy in participant 1, who reached an accuracy of over 95% by the end of his training. The team also observed an increase in accuracy in participant 3 to 98% halfway through his training before the team updated his device with a new algorithm.
The improvement seen in participants 1 and 3 is correlated with improvement in feature discriminancy, which is the algorithm's ability to discriminate the brain activity pattern encoded for �go left' thoughts from that for �go right.' The team found that the better feature discrimnancy is not only a result of machine learning of the device but also learning in the brain of the participants. The EEG of participants 1 and 3 showed clear shifts in brainwave patterns as they improved accuracy in mind-controlling the device.
"We see from the EEG results that the subject has consolidated a skill of modulating different parts of their brains to generate a pattern for �go left' and a different pattern for �go right,'" Mill�n says. "We believe there is a cortical reorganization that happened as a result of the participants' learning process."
Compared with participants 1 and 3, participant 2 had no significant changes in brain activity patterns throughout the training. His accuracy increased only slightly during the first few sessions, which remained stable for the rest of the training period. It suggests machine learning alone is insufficient for successfully maneuvering such a mind-controlled device, Mill�n says.
By the end of the training, all participants were asked to drive their wheelchairs across a cluttered hospital room. They had to go around obstacles such as a room divider and hospital beds, which are set up to simulate the real-world environment. Both participants 1 and 3 finished the task while participant 2 failed to complete it.
The study also emphasized the role of long-term training in users. Although participant 1 performed exceptionally at the end, he struggled in the first few training sessions as well, Mill�n says. The longitudinal study is one of the first to evaluate the clinical translation of non-invasive brain-machine interface technology in tetraplegic people.
Next, the team wants to figure out why participant 2 didn't experience the learning effect. They hope to conduct a more detailed analysis of all participants' brain signals to understand their differences and possible interventions for people struggling with the learning process in the future.
Source: Newswise