In a method of operating a dimensioning system with a plurality of laser scanners, a processor controls the operations of the scanners and processes the scanner signals, and further with memory for storing data delivered by the processor, the data acquired by the dimensioning system in its regular mode of operation are used to construct a three-dimensional model of surface points of the object including spatial coordinates and image intensity for each surface point. The three-dimensional model is stored in the memory. Based on the three-dimensional model, two-dimensional images from any desired viewing angle that was exposed to the scanner rays can be produced on demand to document the appearance of the object at the time the scan was taken.

An appliance including a control device in operative communication with a user input panel and a sensor provided. The control device is configured to emit, via the sensor, a first plurality of signals defining a first operating mode. The first operating mode includes one or more of a first scan rate or a first scan interval. The control device is configured to switch between the first operating mode and a second operating mode based on one or more of detection of a container, detection of a user, or a user input. The control device is configured to emit, via the sensor, a second plurality of signals defining the second operating mode. The second operating mode includes one or more of a second scan rate or a second scan interval different from the first operating mode.

An appliance including a control device in operative communication with a user input panel and a sensor provided. The control device is configured to emit, via the sensor, a first plurality of signals defining a first operating mode. The first operating mode includes one or more of a first scan rate or a first scan interval. The control device is configured to switch between the first operating mode and a second operating mode based on one or more of detection of a container, detection of a user, or a user input. The control device is configured to emit, via the sensor, a second plurality of signals defining the second operating mode. The second operating mode includes one or more of a second scan rate or a second scan interval different from the first operating mode.

An extensible millimeter wave security inspection system, a security inspection method for a human body using the extensible millimeter wave security inspection system and an extensible millimeter wave scanning unit are disclosed. The extensible millimeter wave security inspection system includes at least one security inspection passage, at least one scanning units are provided on at least one side of two sides of each security inspection passage, each scanning unit includes at least one millimeter wave transceiving module, the millimeter wave transceiving module includes an array of millimeter wave antennas configured to transmit and receive millimeter wave signals and a millimeter wave transceiver associated with the array of millimeter wave antennas, and the millimeter wave transceiving module is arranged to scan by millimeter wave a target to be inspected in the security inspection passage along a direction in which the security inspection passage extends.

An extensible millimeter wave security inspection system, a security inspection method for a human body using the extensible millimeter wave security inspection system and an extensible millimeter wave scanning unit are disclosed. The extensible millimeter wave security inspection system includes at least one security inspection passage, at least one scanning units are provided on at least one side of two sides of each security inspection passage, each scanning unit includes at least one millimeter wave transceiving module, the millimeter wave transceiving module includes an array of millimeter wave antennas configured to transmit and receive millimeter wave signals and a millimeter wave transceiver associated with the array of millimeter wave antennas, and the millimeter wave transceiving module is arranged to scan by millimeter wave a target to be inspected in the security inspection passage along a direction in which the security inspection passage extends.

The present invention relates to a ground subsidence detection apparatus, which is capable of continuous detection of ground subsidence, predicts the occurrence of sinkholes and thus can preemptively prevent a sinkhole from forming, and due to having a simple structure, can increase durability and reduce cost. Provided is a ground subsidence detection apparatus exhibiting an alarm color using reflection of a light source and a detection weight, which, without using a separate power source, falls due to gravity in the event of cavity formation in the ground, or falls due to ground movement when ground movement occurs.

The present invention relates to a ground subsidence detection apparatus, which is capable of continuous detection of ground subsidence, predicts the occurrence of sinkholes and thus can preemptively prevent a sinkhole from forming, and due to having a simple structure, can increase durability and reduce cost. Provided is a ground subsidence detection apparatus exhibiting an alarm color using reflection of a light source and a detection weight, which, without using a separate power source, falls due to gravity in the event of cavity formation in the ground, or falls due to ground movement when ground movement occurs.

A device and method for projecting a light pattern is provided. The device includes a processor system and a housing. A three-dimensional (3D) measurement device is operably coupled to the housing that measures a distance to a surface in an environment. A laser projector is operably coupled to the housing, the laser projector having a light source and a pair of movable mirrors, the light source positioned to emit light onto the pair of movable mirrors. Wherein the processor system is responsive to non-transitory executable computer instructions for: determining 3D coordinates of points on the surface with the 3D measurement device; selecting a pattern; causing the laser projector to emit a beam of light and moving the pair of mirrors to generate the pattern on the surface; and adjusting the pattern based at least in part on the 3D coordinates.

A device and method for projecting a light pattern is provided. The device includes a processor system and a housing. A three-dimensional (3D) measurement device is operably coupled to the housing that measures a distance to a surface in an environment. A laser projector is operably coupled to the housing, the laser projector having a light source and a pair of movable mirrors, the light source positioned to emit light onto the pair of movable mirrors. Wherein the processor system is responsive to non-transitory executable computer instructions for: determining 3D coordinates of points on the surface with the 3D measurement device; selecting a pattern; causing the laser projector to emit a beam of light and moving the pair of mirrors to generate the pattern on the surface; and adjusting the pattern based at least in part on the 3D coordinates.

A device and method for projecting a light pattern is provided. The device includes a processor system and a housing. A three-dimensional (3D) measurement device is operably coupled to the housing that measures a distance to a surface in an environment. A laser projector is operably coupled to the housing, the laser projector having a light source and a pair of movable mirrors, the light source positioned to emit light onto the pair of movable mirrors. Wherein the processor system is responsive to non-transitory executable computer instructions for: determining 3D coordinates of points on the surface with the 3D measurement device; selecting a pattern; causing the laser projector to emit a beam of light and moving the pair of mirrors to generate the pattern on the surface; and adjusting the pattern based at least in part on the 3D coordinates.