uniVision is configurable standard software which permits simple and intuitive implementation of applications with 2D/3D Profile Sensors. This makes it possible to conduct individual profile analyses in accordance with user-specific needs without any programming knowledge.

  • Simple evaluation of data generated by the 2D/3D Profile Sensors
  • Linux-based Control Unit software for 2D/3D Profile Sensors
  • Modular design for individualized solutions
  • To Catalog

uniVision Functions

The graphics depict simple applications which can be implemented with uniVision software.


This tutorial offers a summary of the most important steps from wiring and establishing a connection, right on up to the fundamentals of uniVision software.
This tutorial summarizes the setting parameters of the 2D/3D Profile Sensor.
This tutorial explains how a profile is aligned to a special feature and how other algorithms are tracked with this coordinate system – from simple tracking via one point, right on up to rotary tracking via three points.
This tutorial explains how lines, circles and arcs are found, and how distances, angles and intersections are ascertained. It also shows how to find starting and end points, as well as the centers of geometric surfaces. This involves applications such as measuring a slot, gap tracking, width and profile measurement, surface inspection of continuous materials, glue bead inspection and diameter checking.
This tutorial demonstrates the statistical recording and read-out of the last values (e.g. trend, mean value, standard deviation).
This tutorial explains the read-out of results via the UDP interface.
This tutorial shows the possibilities to communicate with the Control Unit via LIMA commands.
This tutorial explains the transfer of process data via the TCP/IP interface.
This tutorial explains how to calculate an area and how to find its centroid.
This tutorial shows how to wire the 2D/3D Profile Sensor to the Control Unit and establish a connection with the sensor.
This tutorial shows how to create any desired region of interest made up of rectangles, circles or polygons, as well as how to conduct simple checking for presence by counting the number of measuring points within a region.
This tutorial shows how the measuring point with the smallest or greatest distance from the sensor is found and how the coordinates of this point are used to track subsequent processing steps (e.g. for guiding ultrasonic inspection probes).
This tutorial shows how values are offset against one another and compared, and how logic operations are executed.
This tutorial shows how to set up the inputs and outputs at the Control Unit, and how to link results to a digital output.
This tutorial demonstrates downloading and installation of free updates from our website.
This tutorial shows how several 2D/3D profile sensors are used at one control unit. The data of each 2D/3D profile sensor is evaluated in a separate application.
This tutorial explains the available filter types for pointclouds.

System Overview

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