- Morris Plains NJ, US Praveen Sharma - Dublin CA, US Thomas Negre - San Jose CA, US James Liu - Livermore CA, US Peter Hsi - Dublin CA, US Neal Muggleton - Stevenage, GB Swapnil Patil - Bhiwandi, IN Aleks Todorovic - Thomastown, AU
International Classification:
G08B 21/02 G08B 21/18 G06Q 50/22 G06Q 10/06
Abstract:
A method of limiting noise damage to an individual includes receiving, by an ototoxicity application stored in a non-transitory memory and executed on a processor, a first individual exposure level to a first oto-toxic condition in an area, correlating the first individual exposure level to an ototoxic effect, determining a noise level threshold based on the correlating, receiving a noise level exposure in the area, comparing the noise level threshold with the noise level exposure, and sending an alert when the noise level exposure exceeds the noise level threshold. The noise level threshold is below a standard noise level threshold.
- Morris Plains NJ, US Praveen SHARMA - Dublin CA, US Thomas NEGRE - San Jose CA, US James LIU - Livermore CA, US Peter HSI - Dublin CA, US Neal MUGGLETON - Stevenage, GB Swapnil PATIL - Bhiwandi, IN Aleks TODOROVIC - Thomastown, AU
International Classification:
G08B 21/02 G06Q 50/22 G06Q 10/06 G08B 21/18
Abstract:
A method of limiting noise damage to an individual includes receiving, by an ototoxicity application stored in a non-transitory memory and executed on a processor, a first individual exposure level to a first ototoxic condition in an area, correlating the first individual exposure level to an ototoxic effect, determining a noise level threshold based on the correlating, receiving a noise level exposure in the area, comparing the noise level threshold with the noise level exposure, and sending an alert when the noise level exposure exceeds the noise level threshold. The noise level threshold is below a standard noise level threshold.
- Morris Plains NJ, US Praveen Sharma - Dublin CA, US Thomas Negre - San Jose CA, US James Liu - Livermore CA, US Peter Hsi - Dublin CA, US Neal Muggleton - Stevenage, GB Swapnil Patil - Bhiwandi, IN Aleks Todorovic - Thomastown, AU
International Classification:
G08B 21/02 G08B 21/18
Abstract:
A method of limiting noise damage to an individual includes receiving, by an ototoxicity application stored in a non-transitory memory and executed on a processor, a first individual exposure level to a first ototoxic condition in an area, correlating the first individual exposure level to an ototoxic effect, determining a noise level threshold based on the correlating, receiving a noise level exposure in the area, comparing the noise level threshold with the noise level exposure, and sending an alert when the noise level exposure exceeds the noise level threshold. The noise level threshold is below a standard noise level threshold.
System For Integrating Multiple Chemical Sensor Data To Detect An Unmeasured Compound
- Morris Plains NJ, US James Liu - Livermore CA, US Thomas Negre - San Jose CA, US Praveen Sharma - Dublin CA, US
International Classification:
G01N 33/00
Abstract:
Methods for determining the presence of an unmeasured chemical in an environment can include receiving a plurality of sensor readings from a plurality of chemical sensors, wherein each chemical sensor of the plurality of chemical sensors is configured to detect a different chemical, determining a cross-sensitivity pattern from one or more unmeasured chemicals in the plurality of sensor readings, comparing the cross-sensitivity pattern with one or more known chemical patterns, determining that the cross-sensitivity pattern matches at least one of the one or more known chemical patterns that correspond to one or more chemicals, and identifying one or more unmeasured chemicals based on determining that the cross-sensitivity pattern matches the at least one of the one or more known chemical patterns.