An information presentation system according to the present disclosure makes a presentation unit present each of multiple different pieces of information such that an image displayed in a first form and a sound output in a second form are synchronized with each other on an individual basis. The information presentation system also makes the presentation unit shift, when presenting two different pieces of information, selected from the multiple different pieces of information, as two sounds in the second form, a timing to output one of the two sounds by at least a certain period of time with respect to a timing to output the other of the two sounds, in order to prevent the two sounds from overlapping with each other.

Methods, systems, and devices are provided for calibrating a light ranging system and using the system to track environmental objects. In embodiments, the approach involves installing light ranging devices, such as lidar devices, on the vehicle exterior. The light ranging system may be calibrated using a calibration device to scan the vehicle exterior and construct a three-dimensional model of the vehicle exterior comprising the positions of the installed light ranging devices on the vehicle exterior. The calibrated light ranging system may use the model in conjunction with ranging data collected by the installed light ranging devices to track objects in the environment. In this way, the light ranging system may detect a proximity of environmental objects and help a driver of the vehicle avoid potential collisions. The light ranging system may further measure the vehicle exterior and thereby detect changes to the vehicle exterior.

Methods, systems, and devices are provided for calibrating a light ranging system and using the system to track environmental objects. In embodiments, the approach involves installing light ranging devices, such as lidar devices, on the vehicle exterior. The light ranging system may be calibrated using a calibration device to scan the vehicle exterior and construct a three-dimensional model of the vehicle exterior comprising the positions of the installed light ranging devices on the vehicle exterior. The calibrated light ranging system may use the model in conjunction with ranging data collected by the installed light ranging devices to track objects in the environment. In this way, the light ranging system may detect a proximity of environmental objects and help a driver of the vehicle avoid potential collisions. The light ranging system may further measure the vehicle exterior and thereby detect changes to the vehicle exterior.

A detection system includes a detection device and a display device. The detection device includes a light projecting unit that projects light to a detection object, a light receiving unit that receives reflection light of the light, a light reception quantity acquiring unit that acquires a light reception quantity, and a distance acquiring unit that acquires a distance between a position at which the light is reflected and the detection object. The control device includes a setting unit that sets a threshold value range which is a combination of a threshold value of the light reception quantity and a threshold value of the distance, a detector that detects the detection object based on whether the light reception quantity and the distance belong to the threshold value range, and a display unit that displays correspondence information in which the light reception quantity and the distance are related to each other.

A detection system includes a detection device and a display device. The detection device includes a light projecting unit that projects light to a detection object, a light receiving unit that receives reflection light of the light, a light reception quantity acquiring unit that acquires a light reception quantity, and a distance acquiring unit that acquires a distance between a position at which the light is reflected and the detection object. The control device includes a setting unit that sets a threshold value range which is a combination of a threshold value of the light reception quantity and a threshold value of the distance, a detector that detects the detection object based on whether the light reception quantity and the distance belong to the threshold value range, and a display unit that displays correspondence information in which the light reception quantity and the distance are related to each other.

A scanning surveying system includes a base, an alidade mounted on the base an rotatable relative to the base about a first axis, a first motor that can rotate the alidade relative to the base, a rotating optical element coupled to the alidade and rotatable relative to the alidade about a second axis, a second motor that can rotate the rotating optical element relative to the base, an optical distance measuring unit, a sensor that can detect a motion of the scanning surveying system, and a controller. The controller can control the optical distance measuring unit (i) to perform stationary scanning operations and (ii) to automatically execute mobile scanning operations in response to a detection of motion of the scanning surveying system by the sensor. The controller can also register point cloud data from the stationary scanning operations and/or the mobile scanning operations.

A scanning surveying system includes a base, an alidade mounted on the base an rotatable relative to the base about a first axis, a first motor that can rotate the alidade relative to the base, a rotating optical element coupled to the alidade and rotatable relative to the alidade about a second axis, a second motor that can rotate the rotating optical element relative to the base, an optical distance measuring unit, a sensor that can detect a motion of the scanning surveying system, and a controller. The controller can control the optical distance measuring unit (i) to perform stationary scanning operations and (ii) to automatically execute mobile scanning operations in response to a detection of motion of the scanning surveying system by the sensor. The controller can also register point cloud data from the stationary scanning operations and/or the mobile scanning operations.

A distance measurement device includes an imaging unit which captures a subject image formed by an imaging optical system, an emission unit which emits directional light as light having directivity along an optical axis direction of the imaging optical system, a light receiving unit which receives reflected light of the directional light from the subject, a derivation unit which derives a distance to the subject based on the timing at which the directional light is emitted and the timing at which the reflected light is received, a display unit which displays the subject image, and a control unit which performs control such that, in a case of performing a distance measurement, the display unit displays the subject image as a motion image and transition is made to a state where actual exposure by the imaging unit is possible at the timing of the end of the distance measurement.

A display system includes: a LiDAR measuring a position of a first surrounding vehicle; a position measuring device measuring a position of a second surrounding vehicle not measured in position by the LiDAR; a display device displaying dividing line icons corresponding to dividing lines around the ego vehicle and surrounding vehicle icons corresponding to the surrounding vehicles around the ego vehicle, and a controller controlling display of the dividing line icons and the surrounding vehicle icons at the display device. The controller is configured to specify a display position in a front-back direction corresponding to a position in the front-back direction of the second surrounding vehicle measured by the position measuring device and a display position in a left-right direction corresponding to a position in the left-right direction in a lane in which the second surrounding vehicle is running, as a display position of a surrounding vehicle icon.

A selective laser scanner, comprising a target component which can be rotated about two rotation axes and is configured to transmit a distance measuring beam defining a target axis. The selective laser scanner further comprises a distance measuring unit configured to carry out distance measurements by means of the distance measuring beam on cooperative targets or on diffusely scattering targets. The selective laser scanner is equipped with a plurality of overview cameras arranged on the target component offset from the target axis in a fixed positional arrangement with respect to each other having field of views which at least partly overlap each other. The selective laser scanner further comprises a display for displaying an environment image provided by imaging data of at least one of the cameras as well as automatic feature and area detections.