Scientists have managed to implant sensational information directly into people ’s genius , allowing them to regain their style around a labyrinth without postulate to in reality see it . Using a technique calledtranscranial magnetic stimulation(TMS ) , the research worker stimulate participants to experience flashes of lighting inside their heads , letting them know that they had to change focal point .
For the experimentation , unpaid worker had to point an avatar around a practical labyrinth that was completely hidden from horizon . At sure intervals they were asked whether they wanted to keep walking directly or twist to the side .
To let players know that their avatar had reached a rampart and call for to alter its course , the team used TMS to stimulate thevisual cortexof their mental capacity , cause them to “ see ” a flash of igniter called aphosphene . These are often experienced when we put pressure level on our unsympathetic eyes by rubbing them , and pass despite the fact that no light is actually entering the oculus .
Using this method , participants were able to pick out the right option on 92 percentage of footmark in a serial publication of different tangle . Reporting this resultant role in the journalFrontiers in Robotics and AI , the work authors claim that TMS – which is a non - invasive technique that involvesapplying pocket-sized electric currents to the brainfrom outside the skull – could help to fulfill in the interruption in sensory perception experienced byblind or indifferent people .
Though the system of rules used in this experimentation is fair rudimentary , with phosphenes help to convey simple yes - no commands , the researchers write that “ as the technology advances , we anticipate that more sophisticated transmission system of information may become possible . ”
First , however , it will be necessary to develop portable TMS devices , as the machines used in this study are far too big to for this technique to be virtual .
Yet the team insist that “ as this aspect of the engineering science improves , the paradigms present here could be useful , for illustration , in developing a non - invasive sensory prosthesis for the unreasoning . ”
