A light detection and ranging (LIDAR) device including a plurality of laser sources configured to provide a plurality of transmit beams, each laser source being positioned with a respective offset of a first plurality of offsets relative to a reference line, a plurality of transmit/receive (T/R) interfaces configured to pass the plurality of transmit beams and reflect received light towards a plurality of detectors, each T/R interface being positioned with a respective offset of a second plurality of offsets relative to the reference line, and a plurality of lenses positioned between the plurality of laser sources and the plurality of T/R interfaces, each lens being positioned with a respective offset of a third plurality of offsets relative to the reference line, wherein the plurality of laser sources and the plurality of lenses, as positioned, are configured to provide beam-steering of the plurality of transmit beams.

A sensor lens cleaning system for a cylindrical sensor having a sensor lens surface includes an extended member having a first end coupled to the cylindrical sensor and a second end opposite the first end, a nozzle coupled to the second end of the extended member, an actuator coupled to the extended member and configured to control the extended member, and a controller in electronic communication with the actuator and configured to communicate an actuator control signal to the actuator. The nozzle generates an air stream directed at the sensor lens surface.

Various measurement systems and methods are disclosed to enable characterizing the optical characteristics of light beams emitted by a light detection and range finding (LIDAR) system or sensor and evaluating the range finding function of user selected lidar channels while the lidar operates under a real operational condition and is exposed to a range of user defined environmental conditions.

Various measurement systems and methods are disclosed to enable characterizing the optical characteristics of light beams emitted by a light detection and range finding (LIDAR) system or sensor and evaluating the range finding function of user selected lidar channels while the lidar operates under a real operational condition and is exposed to a range of user defined environmental conditions.

A sensor module includes a window structure configured to permit the passage of transmitted light and received light between an inside of the sensor module and a field-of-view; a transmitter configured to transmit a transmit light beam; a scanning structure configured to rotate about at least one scanning axis, the scanning structure configured to receive the transmit light beam from the transmitter and direct the transmit light beam towards the window structure and the field-of-view; a light detector configured to detect a reflected light beam that corresponds to the transmit light beam; and at least one processor configured to measure a time-of-flight of a round trip light beam comprising of the transmit light beam and the reflected light beam, compare the time-of-flight to a threshold time, and detect a dirt formation on the window structure on a condition that the time-of-flight is less than the threshold time.

A sensor module includes a window structure configured to permit the passage of transmitted light and received light between an inside of the sensor module and a field-of-view; a transmitter configured to transmit a transmit light beam; a scanning structure configured to rotate about at least one scanning axis, the scanning structure configured to receive the transmit light beam from the transmitter and direct the transmit light beam towards the window structure and the field-of-view; a light detector configured to detect a reflected light beam that corresponds to the transmit light beam; and at least one processor configured to measure a time-of-flight of a round trip light beam comprising of the transmit light beam and the reflected light beam, compare the time-of-flight to a threshold time, and detect a dirt formation on the window structure on a condition that the time-of-flight is less than the threshold time.

Disclosed herein are various embodiments of an adaptive ladar receiver and associated method whereby the active pixels in a photodetector array used for reception of ladar pulse returns can be adaptively controlled based at least in part on where the ladar pulses were targeted. Additional embodiments disclose improved imaging optics for use by the receiver and further adaptive control techniques for selecting which pixels of the photodetector array are used for sensing incident light.

Disclosed herein are various embodiments of an adaptive ladar receiver and associated method whereby the active pixels in a photodetector array used for reception of ladar pulse returns can be adaptively controlled based at least in part on where the ladar pulses were targeted. Additional embodiments disclose improved imaging optics for use by the receiver and further adaptive control techniques for selecting which pixels of the photodetector array are used for sensing incident light.

A support structure having a vertical element supporting a set of cameras associated with a vehicle measurement or inspection system together with at least one target structure required for realignment or recalibration of onboard vehicle safety system sensors. A camera crossbeam carried by the support structure locates the set of cameras as required to view a vehicle undergoing measurement or inspection. The target structure is affixed to the vertical element of the support structure, at an elevation suitable for observation by at least one vehicle onboard sensors during a realignment or recalibration procedure. A set of rollers facilitates positioning of the target structure on a supporting floor surface during a realignment or recalibration procedure.

A distance-measuring apparatus includes a precision calculation section that calculates a precision for each pixel, the precision based on a relation among the amounts of the electric charges stored at a plurality of timings that respectively delay by certain phases from a timing of the emission of the measuring light, wherein the precision is outputted from the distance-measuring apparatus.