Abstract: A system is provided that may include a first storage device, a second storage device, and a controller. The first storage device may receive and store a first message including a first operational key for a first component and a second operational key for a second component. The first message may contain first metadata including at least a time stamp of the first message. The second storage device may receive and store a second message including the first and second operational keys. The second message may contain second metadata including a time stamp of the second message. The controller may compare the first and second messages to determine a most recent version of the first and second operational keys based on the time stamp of the messages. The controller may sync the most recent version of the first and second operational keys to the first and second storage devices.

Abstract: Disclosed herein are several embodiments of a wound treatment apparatus employing a wound dressing for negative pressure wound therapy and methods of using the same. Some embodiments are directed to improved wound dressing to be applied to a wound site, for example a wound dressing including a three-dimensional filter element, and methods of using the same.

Abstract: Disclosed herein are several embodiments of a wound treatment apparatus employing a wound dressing for negative pressure wound therapy and methods of using the same. Some embodiments are directed to improved wound dressing to be applied to a wound site, for example a wound dressing including a three-dimensional filter element, and methods of using the same.

Abstract: Disclosed herein are several embodiments of a wound treatment apparatus employing a wound dressing for negative pressure wound therapy and methods of using the same. Some embodiments are directed to improved wound dressing to be applied to a wound site, for example a wound dressing including a three-dimensional filter element, and methods of using the same.

Abstract: Disclosed herein are several embodiments of a wound treatment apparatus employing a wound dressing for negative pressure wound therapy and methods of using the same. Some embodiments are directed to improved wound dressing to be applied to a wound site, for example a wound dressing including a three-dimensional filter element, and methods of using the same.

Abstract: We disclose methods and apparatus for measuring pH in a sub-surface volume of a diffusely scattering sample. Probe light is directed to an entry region on the sample surface, and collected from a collection region on the sample surface following diffuse scattering within the sample. The collection region is spatially offset from the entry region, so that when one or more Raman spectral features are detected in the collected probe light, a pH of the sub-surface volume can be determined from the spectral features.

Abstract: The present invention is a system and method for delivering optimized road maintenance analysis to a municipality. The instant innovation scans roadways for distressed street surfaces, damaged signage, and other less-than-optimal municipal assets. Data is collected by multiple municipal fleet vehicles as such vehicles drive upon roads within a municipality. Collected data are analyzed by a machine learning algorithm using criteria that most directly correspond to multi-year road quality predictions. The instant innovation provides to a user one or more suggestions and scenario results for roadway maintenance strategies based upon the data analysis.

Abstract: We disclose methods and apparatus for measuring pH in a sub-surface volume of a diffusely scattering sample. Probe light is directed to an entry region on the sample surface, and collected from a collection region on the sample surface following diffuse scattering within the sample. The collection region is spatially offset from the entry region, so that when one or more Raman spectral features are detected in the collected probe light, a pH of the sub-surface volume can be determined from the spectral features.

Abstract: The disclosure relates to a clinical thermometer for non-invasive measurement of sub-cutaneous temperature of tissue of a human or animal subject. Probe light is collected from a collection region spatially offset from an entry region on a visible surface of the subject, following scattering within the tissue, and a temperature of the tissue is determined from Raman spectral features in the collected light.

Abstract: We disclose methods and apparatus for measuring pH in a sub-surface volume of a diffusely scattering sample. Probe light is directed to an entry region on the sample surface, and collected from a collection region on the sample surface following diffuse scattering within the sample. The collection region is spatially offset from the entry region, so that when one or more Raman spectral features are detected in the collected probe light, a pH of the sub-surface volume can be determined from the spectral features.

Abstract: The disclosure relates to a clinical thermometer for non-invasive measurement of sub-cutaneous temperature of tissue of a human or animal subject. Probe light is collected from a collection region spatially offset from an entry region on a visible surface of the subject, following scattering within the tissue, and a temperature of the tissue is determined from Raman spectral features in the collected light.

Abstract: Disclosed herein are several embodiments of a wound treatment apparatus employing a wound dressing for negative pressure wound therapy and methods of using the same. Some embodiments are directed to improved wound dressing to be applied to a wound site, for example a wound dressing including a three-dimensional filter element, and methods of using the same.

Abstract: We disclose methods and apparatus for measuring pH in a sub-surface volume of a diffusely scattering sample. Probe light is directed to an entry region on the sample surface, and collected from a collection region on the sample surface following diffuse scattering within the sample. The collection region is spatially offset from the entry region, so that when one or more Raman spectral features are detected in the collected probe light, a pH of the sub-surface volume can be determined from the spectral features.

Abstract: The disclosure relates to a clinical thermometer for non-invasive measurement of sub-cutaneous temperature of tissue of a human or animal subject. Probe light is collected from a collection region spatially offset from an entry region on a visible surface of the subject, following scattering within the tissue, and a temperature of the tissue is determined from Raman spectral features in the collected light.

Abstract: A tandem mass spectrometer includes a linear time-of-flight mass analyzer and curved field reflectron mass analyzer. The curved-field reflectron mass analyzer is disposed at an end of the linear time-of-flight mass analyzer such that ions having a plurality of ion masses formed in the linear time-of-flight analyzer such that ions having a plurality of ion masses formed in the linear time-of-flight analyzer enter the curved-field reflectron mass analyzer. The tandem mass spectrometer also includes a mass selection gate disposed between the time-of-flight mass analyzer and the curved-field reflectron mass analyzer. The mass selection gate selects an ion mass from the plurality of ion masses. Furthermore, the tandem mass spectrometer also includes a dissociating component located in a path of the ions formed in the linear time-of-flight analyzer. The dissociating component causes dissociation of the ions into a plurality of ion fragments.

Abstract: A time-of-flight mass spectrometer which has an iron source, an evacuated tube proximate the ion source and adapted to receive ions from the ion source, and a detector disposed at an end of the evacuated tube opposite an end proximate the ion source. The ion source is constructed to generate an electric field that changes non-linearly as a function of position along a path from the ion source to the detector. The ion source is constructed to generate an electric field that changes as a function of time, the electric field being provided to accelerate ions from the ion source to the detector.

Abstract: A time-of-flight mass spectrometer has a first electrode, a second electrode spaced apart from the first electrode, a third electrode arranged between the first and second electrodes. The third electrode reserves a space for ions to travel between the first and second electrodes. The time-of-flight mass spectrometer further includes a sample probe disposed proximate the first electrode and adapted to hold a sample, and a detector disposed proximate the second electrode. The first electrode is adapted to be connected to a voltage source to cause a difference in voltage between the first and second electrodes to provide an electric field therebetween that changes non-linearly along an ion path between the sample probe and the detector for accelerating ions to be detected.

Abstract: A mass spectrometer (50) which includes an ionizing source (62), a sample holder (60) arranged in a beam path of the ionizing source (62), an ion detector (54) disposed to receive ions extracted from a sample (61) when held by the sample holder (60) and irradiated by the ionizing source (62). The mass spectrometer (50) also includes an extraction electrode (56) arranged proximate the sample holder (60), and a drift tube (58) arranged between the extraction electrode (56) and the ion detector (54). In the mass spectrometer (50), the extraction electrode (56) and the drift tube (58) are movable together relative to the sample holder (60), which is held at a fixed position.