A system for detecting material accumulation relative to rotating ground-penetrating tools of an agricultural implement includes an agricultural implement having a frame and at least one rotating ground-penetrating tool supported relative to the frame. The rotating ground-penetrating tool(s) is configured to penetrate into the ground to a given penetration depth. The system also includes a tool speed sensor configured to provide data indicative of a rotational speed of the ground-penetrating tool(s) and a computing system communicatively coupled to the tool speed sensor. The computing system is configured to monitor the rotational speed of the ground-penetrating tool(s) based on the data provided by the tool speed sensor, determine a threshold rotational speed based at least in part on the penetration depth of the ground-penetrating tool(s), and determine when the rotational speed of the ground-penetrating tool(s) falls below the threshold rotational speed.

A system for detecting material accumulation relative to rotating ground-penetrating tools of an agricultural implement includes an agricultural implement having a frame and at least one rotating ground-penetrating tool supported relative to the frame. The rotating ground-penetrating tool(s) is configured to penetrate into the ground to a given penetration depth. The system also includes a tool speed sensor configured to provide data indicative of a rotational speed of the ground-penetrating tool(s) and a computing system communicatively coupled to the tool speed sensor. The computing system is configured to monitor the rotational speed of the ground-penetrating tool(s) based on the data provided by the tool speed sensor, determine a threshold rotational speed based at least in part on the penetration depth of the ground-penetrating tool(s), and determine when the rotational speed of the ground-penetrating tool(s) falls below the threshold rotational speed.

A measurement system includes an imaging device, a memory device, an interface and circuitry. The imaging device is configured to obtain a device image a conveyor belt system. The image device is configured to obtain a reference image of a reference point or reference measurement. The reference image can also be the device image. The memory device is configured to store the device image. The interface is configured to facilitate selection of points for a device/part to be measured. The circuitry comprises one or more processors configured to determine a reference measurement for the reference dimension based on the reference image via the interface; determine one or more device measurements based on the device image and the reference measurement; and calculate a plurality of device parameters based on the determined one or more device measurements. User input via a touch sensitive screen comprising a glass insulator coated with indium tin oxide (ITO) and the one or more processors can be configured to select the one or more device points based on change in capacitance at one or more locations of the touch sensitive screen.

A measurement system includes an imaging device, a memory device, an interface and circuitry. The imaging device is configured to obtain a device image a conveyor belt system. The image device is configured to obtain a reference image of a reference point or reference measurement. The reference image can also be the device image. The memory device is configured to store the device image. The interface is configured to facilitate selection of points for a device/part to be measured. The circuitry comprises one or more processors configured to determine a reference measurement for the reference dimension based on the reference image via the interface; determine one or more device measurements based on the device image and the reference measurement; and calculate a plurality of device parameters based on the determined one or more device measurements. User input via a touch sensitive screen comprising a glass insulator coated with indium tin oxide (ITO) and the one or more processors can be configured to select the one or more device points based on change in capacitance at one or more locations of the touch sensitive screen.

An optical sorter includes a light source, a color sensor, a determination part configured to determine a foreign object and/or a defective product, a color shift amount calculation part configured to calculate, based on a color image acquired by the color sensor, an amount of a color shift that occurs due to the fact that at least two element groups out of an R element group, a G element group, and a B element group are spaced apart from each other in a transit direction of a sorting target, a speed calculation part configured to calculate a transit speed of the sorting target based on a separation distance between the at least two element groups in the transit direction, the color shift amount, and a scan time, which is a time required for the color sensor to scan the sorting target once, and a sorting device configured to perform a trajectory change operation for changing a trajectory of a specific sorting target determined based on a result of the determination by the determination part at a timing determined based on the transit speed calculated by the speed calculation part.

An optical sorter includes a light source, a color sensor, a determination part configured to determine a foreign object and/or a defective product, a color shift amount calculation part configured to calculate, based on a color image acquired by the color sensor, an amount of a color shift that occurs due to the fact that at least two element groups out of an R element group, a G element group, and a B element group are spaced apart from each other in a transit direction of a sorting target, a speed calculation part configured to calculate a transit speed of the sorting target based on a separation distance between the at least two element groups in the transit direction, the color shift amount, and a scan time, which is a time required for the color sensor to scan the sorting target once, and a sorting device configured to perform a trajectory change operation for changing a trajectory of a specific sorting target determined based on a result of the determination by the determination part at a timing determined based on the transit speed calculated by the speed calculation part.

An error detection system for notifying maintenance personnel of errors in a bowling lane operation may include a camera, artificial light source (optional), a computer that sends an output signal. The output signal may be a signal to provide notification to maintenance personnel to fix the error or an electrical signal to the pinsetter or ball return unit to manipulate operation of the same to prevent further damage. In this manner, interruptions and delays to bowlers will be minimized because maintenance personnel is immediately notified of any errors and can resolve the errors before the bowler realizes the error.

An error detection system for notifying maintenance personnel of errors in a bowling lane operation may include a camera, artificial light source (optional), a computer that sends an output signal. The output signal may be a signal to provide notification to maintenance personnel to fix the error or an electrical signal to the pinsetter or ball return unit to manipulate operation of the same to prevent further damage. In this manner, interruptions and delays to bowlers will be minimized because maintenance personnel is immediately notified of any errors and can resolve the errors before the bowler realizes the error.

A recorder for documenting that a shaft in a rotating machine has been rotated while the rotating machine is stored or otherwise out of service. The recorder includes an elongated strip that is wound on a reel disposed adjacent the shaft. The reel is rotatable about an axle that is spaced away from the shaft. A free end of the strip is secured to an outer surface of the shaft and spools onto the shaft as the shaft is rotated, and which unwinds the strip from the reel. Markings are on the strip representing distance from the free end, which visually indicate occurrence and amount of shaft rotation. Types of markings include different colors or patterns, and which change at distances corresponding to shaft circumference. Alternatively, the markings are metered increments illustrating linear distance.

Embodiments disclose systems and methods to measure concrete mixer truck drum rotation. A camera (e.g., a video camera or Infra-Red (“IR”) camera) may capture images of a surface of a concrete mixer truck drum. A drum rotation measurement platform may receive the images of the surface of a concrete mixer truck drum captured by the camera and automatically analyze the captured images using machine learning technology to determine drum rotation information (e.g., a drum rotation speed and/or drum rotation direction). The drum rotation measurement platform may then output an indication of the determined drum rotation information. In some embodiments, the surface of the concrete mixer truck drum may include one or more marking symbols (e.g., of various shapes), and the automatic analysis performed by the drum rotation measurement platform includes detection of movement of the marking symbol between captured images.