A system for removing seeds includes a track, one or more carts moveably disposed on the track, one or more sensors, a removing device, and a controller. The controller includes one or more processors, one or more memory modules, and machine readable instructions stored in the one or more memory modules that, when executed by the one or more processors, cause the controller to determine a location of one or more of one or more contaminated seeds and one or more contaminated plants on the one or more carts based on information received from the one or more sensors and instruct the removing device to remove one or more of the one or more contaminated seeds and the one or more contaminated plants based on the location.

Systems and methods for testing a test sample obtain a first image of the test sample via a first input device. The first input device is a primary camera configured to capture the first image while a plurality of light sources illuminate the test sample. The first image is sent from the first input device to a control panel. The control panel is used to label a plurality of layers on the first image. A water cut of the test sample is determined based on labeling of plurality of layers of the first image.

A testing apparatus includes a chamber. The chamber includes a holder configured to position a container. The chamber includes a first input device and a second input device, each partially outside the chamber and configured to: generate a first image of the container and generate a second image of the container. The chamber includes a first light source configured to illuminate the container for the first image. The chamber includes a second light source configured to illuminate the container for the second image.

The present invention relates to a device for obtaining images of bacterial cultures in a dish. The proposed device includes a support for a culture dish to be analyzed surrounded by an annular light emitting source facing an image capturing device and a non-reflective surface which, in conjunction with a reflective surface arranged in the periphery of the support, form a preferably spherical-shaped contrast observation chamber, providing a glare- and reflection-free, uniform tangent illumination of the support.

Systems, devices and methods for calibrating or increasing the accuracy of light sensing devices. The methods can include calibrating a light sensing device with a calibration source that is adapted to mimic at least one representative spectrum.

A method of ranking embryos to indicate their development potential. The method comprises: obtaining values for a plurality of characteristics relating to the morphological development of the embryos during an observation period; determining for respective ones of the embryos whether or not the embryo has undergone a direct cleavage event, and ranking the embryos determined to have undergone a direct cleavage event with a ranking that indicates a lower development potential than for the embryos not determined to have undergone a direct cleavage event; and for the embryos not determined to have undergone a direct cleavage event, determining whether or not a duration of a predefined developmental stage for the embryo exceeds a predefined threshold duration, and ranking embryos for which the duration of the predefined developmental stage is determined to exceed the predefined threshold duration with a ranking that indicates a lower development potential than for the embryos for which the duration of the predefined developmental stage is not determined to exceed the predefined threshold duration; and for the embryos for which the duration of the predefined developmental stage is not determined to exceed the predefined threshold duration, determining whether or not the relative durations of two predefined developmental stages for the embryo is outside a predefined range, and ranking embryos for which the relative durations of two predefined developmental stages for the embryo is outside a predefined range with a ranking that indicates a lower development potential than for the embryos for which the relative durations of two predefined developmental stages for the embryo is not outside the predefined range.

A sensor system is for measuring the profile of a snowpack along a snowpack passage. The sensor system has a probe and at least one processor. The probe has at least one first sensor set. The first sensor set has at least one first photoemitter for emitting light and at least one first photodetector for detecting light. A processor is provided for receiving output signals from the first sensor set. The processor is for calculating a snowpack profile.

A metrology system may include an illumination source to generate an illumination beam and an illumination sub-system to direct the illumination beam to a sample with an inversion-symmetric substrate and one or more films disposed on the inversion-symmetric substrate. The system may further include a filter configured to block a wavelength of the illumination beam and pass a wavelength associated with a second harmonic of the illumination beam and a detector to capture second harmonic generation (SHG) light. The system may further include a controller to receive metrology data from the detector associated with the SHG light from with an interface between the inversion-symmetric substrate and the one or more films and generate one or more metrology measurements associated with the one or more films based on the metrology data.

A portable digital optical camera-based system and method can be used to test water and coagulant samples in a chamber. The chamber has a substantially square shaped horizontal cross section and a least one see-through wall. The system and method can comprise a light source and a contrast plate that are configured to be manually placed, at least partially, into the water and coagulant samples through an aperture at the top of the chamber. The camera is configured to be located outside the chamber and to view an illuminated region in the chamber though the see-through wall. The system and method further comprise a mixing paddle that can be programmed to operate at different speeds during different time segments. The system and method can measure, store, and display time-series data of floc particle count, floc volume concentration, equivalent average spherical floc particle diameter, and computed average floc particle volume of the water and coagulant samples.

A measuring arrangement for determining a physical process variable, a state variable or a property of the measuring medium, in particular a concentration of one or more components contained in the measuring medium, wherein the measuring arrangement comprises at least one measuring cell having a measuring path and a measuring sensor, wherein the measuring cell comprises a gamma-sterilizable data memory having at least one data set that is specific to a memory cell, and a method for using the measuring arrangement.