Grant
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Vanderbilt engineering professor receives $3.1 million NIH grant to develop an augmented reality surgery system for precision cochlear implant procedures
A Vanderbilt engineering professor is working with clinical colleagues to develop and validate an augmented reality (AR) vision guidance system to help surgeons place cochlear implants more precisely. The guidance system leverages emerging artificial intelligence (AI) technology and uses inexpensive, commonly available equipment, making it practical for many operating rooms. Read MoreAug. 15, 2025
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A $3M NSF grant to advance biomanufacturing could help establish an innovative method to deliver medicines to cells
A Vanderbilt engineering professor is working with clinical colleagues to develop and validate an augmented reality (AR) vision guidance system to help surgeons place cochlear implants more precisely. The guidance system leverages emerging artificial intelligence (AI) technology and uses inexpensive, commonly available equipment, making it practical for many operating rooms. Read MoreSep. 29, 2023
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Vanderbilt computer scientist wins $3M grant to expand toolkit that tracks fetal growth during pregnancy
A Vanderbilt engineering professor is working with clinical colleagues to develop and validate an augmented reality (AR) vision guidance system to help surgeons place cochlear implants more precisely. The guidance system leverages emerging artificial intelligence (AI) technology and uses inexpensive, commonly available equipment, making it practical for many operating rooms. Read MoreMar. 13, 2023
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Vanderbilt and University of Tennessee-Knoxville win NSF Sustainable Regional Systems Research Network grant
A Vanderbilt engineering professor is working with clinical colleagues to develop and validate an augmented reality (AR) vision guidance system to help surgeons place cochlear implants more precisely. The guidance system leverages emerging artificial intelligence (AI) technology and uses inexpensive, commonly available equipment, making it practical for many operating rooms. Read MoreSep. 30, 2021
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Vanderbilt team first to win VentureWell stage 2 grant for environmental monitoring startup
A Vanderbilt engineering professor is working with clinical colleagues to develop and validate an augmented reality (AR) vision guidance system to help surgeons place cochlear implants more precisely. The guidance system leverages emerging artificial intelligence (AI) technology and uses inexpensive, commonly available equipment, making it practical for many operating rooms. Read MoreAug. 3, 2021
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NSF seed grant supports biomanufacturing of new drug delivery technologies
A Vanderbilt engineering professor is working with clinical colleagues to develop and validate an augmented reality (AR) vision guidance system to help surgeons place cochlear implants more precisely. The guidance system leverages emerging artificial intelligence (AI) technology and uses inexpensive, commonly available equipment, making it practical for many operating rooms. Read MoreOct. 2, 2020
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NSF grant to Baroud, scientists to examine the future of international shipping in the Arctic Ocean
A Vanderbilt engineering professor is working with clinical colleagues to develop and validate an augmented reality (AR) vision guidance system to help surgeons place cochlear implants more precisely. The guidance system leverages emerging artificial intelligence (AI) technology and uses inexpensive, commonly available equipment, making it practical for many operating rooms. Read MoreSep. 17, 2020
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Byram receives NSF career development award
A Vanderbilt engineering professor is working with clinical colleagues to develop and validate an augmented reality (AR) vision guidance system to help surgeons place cochlear implants more precisely. The guidance system leverages emerging artificial intelligence (AI) technology and uses inexpensive, commonly available equipment, making it practical for many operating rooms. Read MoreApr. 11, 2018
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EPA awards $90,000 to senior design team to further develop spinach powered solar cell
A Vanderbilt engineering professor is working with clinical colleagues to develop and validate an augmented reality (AR) vision guidance system to help surgeons place cochlear implants more precisely. The guidance system leverages emerging artificial intelligence (AI) technology and uses inexpensive, commonly available equipment, making it practical for many operating rooms. Read MoreApr. 24, 2012
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DoD funds to stimulate research go to VUSE professors
A Vanderbilt engineering professor is working with clinical colleagues to develop and validate an augmented reality (AR) vision guidance system to help surgeons place cochlear implants more precisely. The guidance system leverages emerging artificial intelligence (AI) technology and uses inexpensive, commonly available equipment, making it practical for many operating rooms. Read MoreAug. 14, 2009