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May 18, 2021
System turns imagined handwriting into text
At a Glance
- Researchers developed a system for people with paralysis that quickly translates brain signals for handwriting into text.
- The technology could help restore the ability of people with spinal cord injuries and certain neurological disorders to communicate.
Advances in technology allow people who have lost the ability to move or speak to communicate again. Brain-computer interfaces, or BCIs, enable direct communication between the brain and an external computer. BCIs decode neural activity and translate it into commands to accomplish the user鈥檚 goal. Using BCI technology, people who are paralyzed can control a robotic arm or type with a computer cursor through brain activity.
However, point-and-click typing using BCIs can be a slow process, making it inefficient to use. Researchers are looking for new approaches to speed BCI communication. Focusing on the brain signals used for rapid, fine movements like handwriting might speed the process. A team led by Dr. Francis Willett and Dr. Krishna Shenoy of Stanford developed a BCI that decodes thoughts of handwriting movements and translates them into text in real time. They assessed the speed and accuracy of the system with a person who was paralyzed from a spinal cord injury.
The study was funded in part by NIH鈥檚 BRAIN Initiative, 最新麻豆视频 Institute of Neurological Disorders and Stroke (NINDS) and 最新麻豆视频 Institute on Deafness and Other Communication Disorders (NIDCD). Findings were published in Nature on May 12, 2021.
Researchers asked the participant to attempt to write as if his hand was not paralyzed. He was told to imagine he was holding a pen on a piece of ruled paper. He then pictured copying individual letters displayed on the screen, as well as symbols for spaces and stops.
Electrodes implanted in the brain recorded signals from the participant鈥檚 motor cortex, the region of the brain that controls fine movement. Even after a person is paralyzed from a spinal cord injury, their motor cortex still works and produces neural signals for the intended movement. The electrodes recorded brain activity from approximately 200 individual neurons that responded collectively to the 鈥渨riting鈥 of each character.聽
These brain signals were then used to train a machine-learning computer algorithm to identify the neural patterns representing individual letters. After a series of training sessions, the system allowed the participant to form new sentences, with the computer displaying letters in real time.
The handwriting BCI system is a marked improvement over existing BCIs that move a cursor to 鈥渢ype鈥 words on a screen. Using the new system, the participant was able to compose sentences and communicate with others at a speed of about 90 characters per minute with 94% accuracy. This speed is comparable to someone of a similar age typing on a smartphone. In contrast, 鈥減oint-and-click鈥 interfaces have only achieved about 40 characters per minute.
鈥淎ttempting to write each letter produces a unique pattern of activity in the brain, making it easier for the computer to identify what is being written with much greater accuracy and speed,鈥 Willett explains.
鈥淭his study represents an important milestone in the development of BCIs and machine learning technologies that are unraveling how the human brain controls processes as complex as communication,鈥 says Dr. John Ngai, director of the NIH BRAIN Initiative. 鈥淭his knowledge is providing a critical foundation for improving the lives of others with neurological injuries and disorders.鈥
While preliminary, this technology could help those who have lost the ability to write and speak. The clinical trial, called聽,聽continues to test this and other BCI technologies.
Related Links
- Scientists Create Speech Using Brain Signals
- Spinal Cord Stimulation Improves Hand Grip After Cervical Spinal Injury
- Spinal Cord Stimulation Helps Paralyzed People Move Hands
- Spinal Cord Injury Repair Requires Scars
- Paralyzed Men Gain Movement Without Surgery
- Thought-Control Gives Paralyzed People Helping Hand
- Device Restores Movement to Paralyzed Limbs
- Controlling Computers with Your Mind
References: Willett FR, Avansino DT, Hochberg LR, Henderson JM, Shenoy KV. Nature. 2021. May;593(7858):249-254. doi: 10.1038/s41586-021-03506-2. Epub 2021 May 12. PMID: 33981047.
Funding: NIH鈥檚 BRAIN Initiative, 最新麻豆视频 Institute of Neurological Disorders and Stroke (NINDS), and 最新麻豆视频 Institute on Deafness and Other Communication Disorders (NIDCD); Howard Hughes Medical Institute; US Department of Veterans Affairs; L. and P. Garlick; S. and B. Reeves; Stanford University; Simons Foundation.