Methods, systems and computer program products for detecting gas leaks using a drone are provided. Aspects include capturing a first set of data regarding a presence of a gas in the geographic area while flying along the initial flight path. Aspects also include creating secondary flight paths through regions in the geographic area in which the presence of the gas exceeds a threshold amount and capturing a second set of data regarding a concentration of the gas in the one or more regions while flying along the secondary flight paths. Aspects further include capturing wind data while flying along the initial and second flight paths and creating a three-dimensional gas plume model for gas leaks identified in the geographic area based on the first set of data, the second set of data and the wind data, wherein the three-dimensional gas plume model identifies a source of the gas leaks.

In some examples, a medical system includes a medical device. The medical device may include a housing configured to be implanted in a target site of a patient, a light emitter configured to emit a signal configured to cause a fluorescent marker to emit a fluoresced signal into the target site, and a light detector that may be configured to detect the fluoresced signal. The medical system may include processing circuitry configured to determine a characteristic of the fluorescent marker based on the emitted signal and the fluoresced signal. The characteristic of the fluorescent marker may be indicative of a presence of a compound in the patient, and the processing circuitry may be configured to track the presence of the compound of the patient based on the characteristic of the fluorescent marker.

A sensor unit is disclosed for determining properties of a lubricant; for example, a lubricating grease in a rolling bearing. A machine element may include the sensor unit and a machine assembly may include the machine element. The sensor unit includes a sensor housing having a window which can be aligned to the lubricant. A transmitter for emitting electromagnetic radiation through the window and a receiver for receiving electromagnetic radiation which passes through the window are located in the sensor housing. Evaluating electronics arranged in the sensor housing are electrically connected at least to the receiver. The evaluating unit is designed to generate at least one digital sensor signal. The sensor unit further includes an electrical connection, which is led through the sensor housing and electrically connected to the evaluating electronics in the sensor housing.

In some examples, a medical system includes a medical device. The medical device may include a housing configured to be implanted in a target site of a patient, a light emitter configured to emit a signal configured to cause a fluorescent marker to emit a fluoresced signal into the target site, and a light detector that may be configured to detect the fluoresced signal. The medical system may include processing circuitry configured to determine a characteristic of the fluorescent marker based on the emitted signal and the fluoresced signal. The characteristic of the fluorescent marker may be indicative of a presence of a compound in the patient, and the processing circuitry may be configured to track the presence of the compound of the patient based on the characteristic of the fluorescent marker.

The present disclosure relates to a device for observing and/or inspecting a material web, comprising a first camera unit for capturing first image data of the material web; a first computing unit, connected to the first camera unit, adapted to receive the first image data; and a second computing unit adapted to receive the first image data from the first computing unit. The first and the second computing units are connected via a first USB line. The first image data is transferred to the second computing unit via the first USB line. A first USB interface of the first computing unit and a second USB interface of the second computing unit are connected via the first USB line. Another aspect of the present disclosure relates to a device for processing a material web, comprising the material web and the device for observing and/or inspecting the material web.

An image processing apparatus including a processor and a memory, having instructions stored thereon, which, when executed by the processor, cause the image processing apparatus to acquire a captured image of an inspection target, to detect defect information based on the image, to determine a transmittance of the image based on a trend in the defect information, to determine whether a first setting for displaying the defect information in a highlighted state is enabled, to generate a first layer including the image, if the first setting is enabled, a second layer to which a predetermined transmittance is set, and, if the first setting is disabled, a third layer including the defect information without generating the second layer, and to display the first, second, and third layers so as to be superimposed on one another, or to display the first and third layers so as to be superimposed on one another.

Disclosed are a sample analysis apparatus and method which include: obtaining a first light signal by irradiating a first test sample from blood and a first-channel reagent to differentiate neutrophils, eosinophils, lymphocytes, and monocytes; obtaining a second light signal from a second test sample from the blood and a second-channel reagent; counting the nucleated red blood cells and lymphocytes based on the second light signal; determining accuracy of the lymphocyte result from the first test sample; and if inaccurate, correcting the lymphocyte result based on the lymphocyte result of the second test sample.

Techniques are provided for sensing and using humidity dynamics. In a first set of embodiments, a humidity dynamics sensor includes a chamber that is open only at one wall opening. The sensor also includes a pair of humidity sensors disposed in a wall of the chamber at different distances from the wall opening. Each sensor is configured to measure humidity inside the chamber. The sensor also includes a gasket surrounding the wall opening of the chamber. At least a portion of the wall of the chamber is transparent to at least a portion of photosynthetically active optical wavelengths. The gasket is configured to form an airtight seal with a surface of a subject.