Ua hoʻolauna nā mea noiʻi ma MIT i kahi hoʻolālā kikohoʻe.Hiki i nā pulupulu i hoʻokomo ʻia i loko o ka pālule ke ʻike, mālama, unuhi, kālailai a haʻi i ka ʻike pono a me ka ʻikepili, me ka mahana o ke kino a me ka hana kino.I kēia manawa, ua hoʻohālikelike ʻia nā fiber uila."ʻO kēia hana ka mea mua i ʻike i kahi lole hiki ke mālama a hoʻoili i ka ʻikepili ma ke ʻano kikohoʻe, e hoʻohui i kahi ʻano hou o ka ʻike i ka textile, a e ʻae i ka hoʻonohonoho verbatim o ka lole," wahi a Yoel Fink, ka mea kākau kiʻekiʻe o ka noiʻi.
Ua mālama ʻia ka noiʻi me ka hui pū ʻana me ke Keʻena Textile o ka Rhode Island School of Design (RISD) a ua alakaʻi ʻia e Professor Anais Missakian.
Hana ʻia kēia fiber polymer me nā haneli o nā ʻāpana micro-digital chips square.He lahilahi a maʻalahi hiki ke hou i nā nila, humuhumu i loko o nā lole, a kū i ka liʻiliʻi he 10 holoi.
Hiki i ka fiber optical kikohoʻe ke mālama i ka nui o ka ʻikepili i ka hoʻomanaʻo.Hiki i nā mea noiʻi ke kākau, mālama, a heluhelu i ka ʻikepili ma ka fiber optical, me kahi faila wikiō piha 767 kb a me kahi faila mele 0.48 MB.Hiki ke mālama ʻia ka ʻikepili no ʻelua mahina inā pau ka mana.Aia ma kahi o 1,650 mau pūnaewele neural pili i ka fiber optical.Ma ke ʻano o ke aʻo ʻana, ua humuhumu ʻia nā fiber kikohoʻe ma nā ʻāʻī o nā pālule o nā mea komo, a ua ana ka lole kikohoʻe i ka wela o ke kino no kahi o 270 mau minuke.Hiki ke hoʻomaopopo ka fiber optical kikohoʻe i nā hana a ka mea e ʻaʻahu ana iā ia i komo me 96% pololei.
ʻO ka hui pū ʻana o nā mana analytical a me ka fiber i hiki ke hoʻohana hou aku: hiki iā ia ke nānā i nā pilikia olakino manawa maoli, e like me ka hāʻule ʻana o nā pae oxygen a i ʻole ka pulse rate;nā ʻōlelo aʻo e pili ana i nā pilikia hanu;a me nā lole hana naʻauao e hiki ai ke hāʻawi i nā mea pāʻani i ka ʻike e pili ana i ka hoʻomaikaʻi ʻana i kā lākou hana a me nā Manaʻo e hōʻemi i ka manawa o ka ʻeha (e noʻonoʻo iā Sensoria Fitness).Hāʻawi ʻo Sensoria i kahi ʻano lole akamai piha e hāʻawi i ka ʻikepili olakino a me ka hoʻoikaika kino e hoʻomaikaʻi i ka hana.Ma muli o ka mālama ʻia ʻana o ka fiber e kahi mea liʻiliʻi o waho, ʻo ka hana hou a nā mea noiʻi e kūkulu i kahi microchip hiki ke hoʻokomo ʻia i loko o ka fiber ponoʻī.
I kēia mau lā, ua hoʻomohala ʻo Nihaal Singh, he haumāna o KJ Somaiya College of Engineering, i kahi ʻōnaehana hoʻoheheʻe Cov-tech (e mālama i ka mahana o ke kino) no ka pahu PPE a ke kauka.Ua komo pū ka lole akamai i nā ʻano lole haʻuki, nā lole olakino a me ka pale aupuni.Eia kekahi, ua manaʻo ʻia e 2024 a i ʻole 2025, ʻoi aku ka nui o ka makahiki o ka mākeke lole lole / lole lole honua ma mua o $ 5 biliona.
Ke hoʻopōkole nei ka papa manawa no nā lole akamai.I ka wā e hiki mai ana, e hoʻohana ia mau lole i nā algorithms ML i kūkulu kūikawā ʻia e ʻike a loaʻa i nā ʻike hou i nā kumu olaola hiki ke kōkua i ka loiloi i nā hōʻailona olakino i ka manawa maoli.
Ua kākoʻo ʻia kēia noiʻi e ka US Army Research Office, ka US Army Soldier Nanotechnology Institute, ka National Science Foundation, ka Massachusetts Institute of Technology Ocean Fund a me ka Defense Threat Reduction Agency.
Ka manawa hoʻouna: Jun-09-2021