Patients who receive robotic limbs are usually not able to immediately adapt to a complex functional device. A few hours of manual settings are required to adapt the prosthesis to the individual customer walking style. However, in this area of medicine, the introduction of artificial intelligence can benefit everything: both patients and specialists.
For comparison, the technology with AI automatically sets up a robotic knee for several minutes, allowing those who wear it, walking smoothly on a flat surface for 10 minutes. The system analyzes indicators from sensors, which should fluctuate within the specified limits characteristic of everyday leisurely walking. If the data is deviated from the norm, AI corrects the operation of the nodes of a robotic prosthesis, normalizing the rhythm of movement.
However, while the technology with AI has many disadvantages: the chip with AI is still energy -consumed and not hidden, it is directly in sight of the prosthesis from behind, the prototype works only on a flat surface (while there is no question of crossing the crossed areas, on the slopes or stairs) andit is not universal, that is, not every person with an amputated limb is suitable. The team will continue to work on these problems.
Source: Engadget.com
Patients who receive robotic limbs are usually not able to immediately adapt to a complex functional device. A few hours of manual settings are required to adapt the prosthesis to the individual customer walking style. However, in this area of medicine, the introduction of artificial intelligence can benefit everything: both patients and specialists.
For comparison, the technology with AI automatically sets up a robotic knee for several minutes, allowing those who wear it, walking smoothly on a flat surface for 10 minutes. The system analyzes indicators from sensors, which should fluctuate within the specified limits characteristic of everyday leisurely walking. If the data is deviated from the norm, AI corrects the operation of the nodes of a robotic prosthesis, normalizing the rhythm of movement.
However, while the technology with AI has many disadvantages: the chip with AI is still energy -consumed and not hidden, it is directly in sight of the prosthesis from behind, the prototype works only on a flat surface (while there is no question of crossing the crossed areas, on the slopes or stairs) andit is not universal, that is, not every person with an amputated limb is suitable. The team will continue to work on these problems.
Source: Engadget.com