# of Displayed Technologies: 8 / 8

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Machine-Learning Algorithm for Improved Speech Intelligibility in Noise
TS-042266 — A monaural machine-learning algorithm for classifying time-frequency units in an unknown signal, which results in marked speech-intelligibly improvements in noisy signals.
A primary complaint of hearing-impaired (HI) listeners is poor speech recognition in background noise. This issue can be quite debilitating and persists despite considerable efforts to improve hearing technology. Despite considerable effort, monaural (single-microphone) algorithms capable of incre…
  • College: College of Arts & Sciences
  • Inventors: Healy, Eric; Vasko, Jordan
  • Licensing Officer: Hong, Dongsung

Machine-Learning Algorithm for Improved Speech Intelligibility in Noise
TS-042266 — A monaural machine-learning algorithm for classifying time-frequency units in an unknown signal, which results in marked speech-intelligibly improvements in noisy signals.
A primary complaint of hearing-impaired (HI) listeners is poor speech recognition in background noise. This issue can be quite debilitating and persists despite considerable efforts to improve hearing technology. Despite considerable effort, monaural (single-microphone) algorithms capable of incre…
  • College: College of Arts & Sciences
  • Inventors: Healy, Eric; Vasko, Jordan
  • Licensing Officer: Hong, Dongsung

Machine-Learning Algorithm for Improved Speech Intelligibility in Noise
TS-038074 — A monaural machine-learning algorithm for classifying time-frequency units in an unknown signal, which results in marked speech-intelligibly improvements in noisy signals.
Wireless carriers receive daily complaints about poor speech recognition in background noise during calls and are constantly looking for methods to improve especially in light of recent forays into VOIP. The ability to discriminate between speech and noise in an audio signal then is an extremely i…
  • College: College of Arts & Sciences
  • Inventors: Healy, Eric; Vasko, Jordan
  • Licensing Officer: Hong, Dongsung

Machine-Learning Algorithm for Improved Speech Intelligibility in Noise
TS-038074 — A monaural machine-learning algorithm for classifying time-frequency units in an unknown signal, which results in marked speech-intelligibly improvements in noisy signals.
Wireless carriers receive daily complaints about poor speech recognition in background noise during calls and are constantly looking for methods to improve especially in light of recent forays into VOIP. The ability to discriminate between speech and noise in an audio signal then is an extremely i…
  • College: College of Arts & Sciences
  • Inventors: Healy, Eric; Vasko, Jordan
  • Licensing Officer: Hong, Dongsung

Non-Invasive Electromagnetic Method for Continuous Detection and Monitoring of Malaria
TS-015267 — An inexpensive device that utilizes non-invasive electromagnetic interactions with red blood cells to provide continuous monitoring for or diagnosis of malaria.
Plasmodium falciparum (PF), a form of malaria, is the deadliest and most prevalent parasite in humans due to its pervasiveness in temperate areas of the underdeveloped world. In 2013, there were nearly 198 million cases of malaria and an estimated 584,000 deaths, mostly among African children (BCC…
  • College: College of Engineering (COE)
  • Inventors: Subramaniam, Vishwanath; Drew, Mark; Smith, Brad; West, Joseph
  • Licensing Officer: Hong, Dongsung

SmartHub Wheelchair Fitness Tracker
TS-015141 — The SmartHub is a personal fitness and activity tracking device designed for manual wheelchair users.
Fitness tracking technology has boomed in recent years. However, none of the technology that has been sold has been useable by those in wheelchairs. Either these devices rely on total body movement or the algorithms are not adapted for movement in a wheelchair instead of by walking upright. Many p…
  • College: College of Engineering (COE)
  • Inventors: Metzler, Sandra; DiGiovine, Carmen; Eakins, Kyle; Mubaslat, Jad; Nishio, Lee; Shaffer, Sarah
  • Licensing Officer: Hong, Dongsung

Non-Contact Method for Accelerating Wound Healing
TS-015075 — Novel non-contact method for healing surface or deep wounds by inducing electric fields by applying time-varying magnetic fields.
The directional movement of biological cells in the presence of an applied electric field is known as galvanotaxis or electrotaxis. The majority of experiments related to galvanotaxis over the past two centuries have involved steady electric fields applied via electrodes placed in contact with a m…
  • College: College of Engineering (COE)
  • Inventors: Subramaniam, Vishwanath; Das Ghatak, Piya; Roy, Sashwati; Sen, Chandan; Sequin, Emily; West, Joseph
  • Licensing Officer: Hong, Dongsung

Multi-carrier processing in auditory prosthetic devices
TS-014871 — Encoding strategy for improvement of speech understanding in a noisy environment for audiotory prosthetic devices.
There are about 275 million adults globally with moderate to severe hearing loss and 360 million adults with mild hearing loss. The current solutions to allow these people to hear better include hearing aids, hearing loss counseling, cochlear implants, alerting devices, and other communication aid…
  • College: College of Arts & Sciences
  • Inventors: Apoux, Frederic; Healy, Eric
  • Licensing Officer: Hong, Dongsung

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