An apparatus for sorting objects is described, and which provides high-speed image data acquisition to fuse multiple data streams in real-time, while intentionally creating and utilizing known signal interference to enhance contrasts when individual sensors or detectors are utilized in providing data regarding features of a product to be inspected.

A method for operating a root crop conveying machine is provided, as well as a root crop conveying machine. Sensor data are recorded by at least one optical sensor. The optical sensor is directed to a measurement region of a flow of harvested material conveyed by at least one conveying element in a conveying direction. On the basis of the sensor data, mass data characterizing at least a mass of at least a part of the harvested material are calculated by an evaluation device. Yield data are calculated and provided by the evaluation device at least on the basis of the mass data. The yield data reflect at least the mass and/or a value calculated on the basis of the mass.

A method and apparatus for sorting objects is described, and which provides high-speed image data acquisition to fuse multiple data streams in real-time, while intentionally creating and utilizing known signal interference to enhance contrasts when individual sensors or detectors are utilized in providing data regarding features of a product to be inspected.

The present invention relates to a method and a device for batching fish into cooling devices. The method and the device can be used for receiving fish after bleeding and gutting freshly caught fish on board a fishing vessel and batching the fish into cooling devices. The batching and cooling apparatus and method may be used to increase the value of the fish by shortening the time from the fish is caught until the fish is chilled for storing.

A process for detecting oil or lubricant contamination in a manufactured product, the process comprising adding a fluorescent taggant to oils or lubricants contained in processing machinery for said product, conveying said product past an infrared detection apparatus, irradiating said product with infrared radiation from said detection apparatus as it passes the detection apparatus, and detecting infrared radiation emitted from said irradiated product.

Methods and systems for detecting foreign material within a product stream in real-time, involve illuminating a portion of the agricultural product stream with light spanning a wavelength range including or within near-infrared and/or shortwave infrared wavelengths; scanning a line of the illuminated agricultural product stream to acquire a hyperspectral image of the line, the hyperspectral image of the line having a width of a single pixel; processing the hyperspectral image of the scanned line to obtain spectrum data for one or more pixels of the hyperspectral image of the scanned line; comparing the obtained spectrum data of the one or more pixels to predetermined spectrum data to determine whether the obtained spectrum data is indicative of foreign material within the scanned line of the agricultural product stream.

An inspection station for detecting oil or lubricant contamination in a manufactured product, the inspection station having (a) a conveyor for advancing manufactured product, and (b) an infrared detection apparatus, including (i) a high intensity infrared light source for directing at the manufactured product, and (ii) a high speed NIR spectrometer sensor tuned to detect an emitted signal from a taggant disposed in the oil or lubricant.

An object detection method includes an electromagnetic radiation emitter, and an electromagnetic radiation detector on a first side of an inspection zone, a reflective background on a second side of the inspection zone and a controller operably connected to the emitter and the detector to measure/determine a first time of travel for emitted electromagnetic radiation waves/pulses to travel from the emitter, to the reflective background, and return to the detector, and to measure/determine a second time of travel for emitted electromagnetic radiation waves/pulses to travel from the emitter of electromagnetic radiation to objects of interest passing through the inspection zone along an unsupported path of travel and to be reflected to the electromagnetic radiation detector, and any determined time of travel which varies from the first time of travel is evidence there is an object within the inspection zone and between the emitter and the reflective background.

Grain sorting process and apparatus (1) includes a grain infeed chute (2) for delivery of bulk cereal grain into the apparatus (1) past an in-line measurement station (3) which analyses selected parameters of grain delivered through the infeed chute (2). The grain infeed chute (2) discharges onto a horizontal grain sorting conveyor (4) which discharges the grain into storage silos (5, 6) in response to one or more measured parameters of the grain determined at the measurement station (3), The measurement station (3) In has a sensor unit (7) which includes a near-infrared light source for emitting light onto grain delivered through the grain infeed chute (2) or through the grain sorting conveyor (4), The light is reflected from the grain and reflected light is detected by the sensor (7) to provide a spectrum of the grain. A spectrometer (8) connected to the sensor unit (7) converts the spectrum into one or more corresponding preselected grain parameter values, The grain parameter values generated by the spectrometer (8) are delivered to a controller (9). The controller (9) then controls operation of the sorting conveyor (4) in response to the measured grain parameter values to deliver the cereal grain into a storage silo (5, 6) having a grain parameter corresponding to the measured grain parameter.

An automating seed sorting system is provided comprising a tray subsystem, a de-lidding subsystem, an extraction subsystem, and a collection subsystem. The tray subsystem is configured to remove at least one tray from a cart and, subsequently, return the at least one tray to the cart. The de-lidding subsystem is structured and operable to remove a lid from the at least one tray. The extraction subsystem is configured to extract one or more seeds from the at least one tray and release the one or more seeds into a funnel assembly. And, the collection subsystem includes the funnel assembly, wherein the collection subsystem is structured and operable to align at least one receptacle with the funnel assembly and direct the one or more seeds into the at least one receptacle via the funnel assembly.