This technology details five different methods of manipulating speech sounds to identify how they are processed, and measures the listener response to altered...
This technology details five different methods of manipulating speech sounds to identify how they are processed, and measures the listener response to altered speech sound, truncated speech sound, added noise, altered intelligibility, and morphed sounds. These methods allow for identification of the unique feature of each speech sound (e.g. time of onset and frequency).
Dr. John Rogers from the University of Illinois at Urbana-Champaign has developed bioresorbable silicon electronics that can be used for real-time sensing of neural...
Dr. John Rogers from the University of Illinois at Urbana-Champaign has developed bioresorbable silicon electronics that can be used for real-time sensing of neural electrical activity. This invention could prevent follow-up neural surgeries, and has potentials for long-term monitoring of patients.
Dr. Andrew Smith from the University of Illinois has developed new quantum dots with a multidentate polymer coating that minimizes size while maintaining stability and...
Dr. Andrew Smith from the University of Illinois has developed new quantum dots with a multidentate polymer coating that minimizes size while maintaining stability and improving efficiency of conjugation. Quantum dots are promising agents for cellular and molecular imaging, but their bulky organic coatings have limited their use in cells. Dr. Smith's quantum dots are small, stable, and can be conjugated to targeting molecules and purified easily.
Dr. Hergenrother from the University of IL has developed a novel antibiotic that is effective against certain antibiotic-resistant gram-negative bacteria. His powerful...
Dr. Hergenrother from the University of IL has developed a novel antibiotic that is effective against certain antibiotic-resistant gram-negative bacteria. His powerful predictive algorithm determines accumulation of molecules in Gram-negative bacteria and enables conversion of known Gram-positive only antibiotics into novel compounds with Gram-negative potency.
Dr. Stephen Boppart from has developed a new method of mapping the thickness of the tympanic membrane. This method uses LCI and video otoscopy data to...
Dr. Stephen Boppart from has developed a new method of mapping the thickness of the tympanic membrane. This method uses LCI and video otoscopy data to piece together a full image of the tympanic membrane and overlay that image with thickness measurements. This will allow physicians to noninvasively examine tympanic membrane thickness leading to more accurate and less invasive diagnose middle ear infections.
Dr. Boppart from the University of IL has developed a portable Otitis Media diagnostic system that allows for primary and point-of-care use. The briefcase OCT system...
Dr. Boppart from the University of IL has developed a portable Otitis Media diagnostic system that allows for primary and point-of-care use. The briefcase OCT system provides a 5-fold cost reduction and 3-fold size reduction compared to current systems and is easily portable for field work. The measurements using this system could be performed non-invasively through tissues or other interfaces/layers of material provided they are optically transparent for OCT imaging.
