Patent application number | Description | Published |
20100274390 | METHOD AND SYSTEM FOR THE HIGH-PRECISION POSITIONING OF AT LEAST ONE OBJECT IN A FINAL LOCATION IN SPACE - The invention relates to a method and a system for the high-precision positioning of at least one object in a final location in space. An object ( | 10-28-2010 |
20120072021 | METHOD AND SYSTEM FOR HIGHLY PRECISELY POSITIONING AT LEAST ONE OBJECT IN AN END POSITION IN SPACE - An object is highly precisely moved by an industrial robot to an end position by the following steps, which are repeated until the end position is reached within a specified tolerance: Recording a three-dimensional image by means of a 3-D image recording device. Determining the present position of the object in the spatial coordinate system from the position of the 3-D image recording device the angular orientation of the 3-D image recording device detected by an angle measuring unit, the three-dimensional image, and the knowledge of features on the object. Calculating the position difference between the present position of the object and the end position. Calculating a new target position of the industrial robot while taking into consideration the compensation value from the present position of the industrial robot and a value linked to the position difference. Moving the industrial robot to the new target position. | 03-22-2012 |
20120098958 | CALIBRATION METHOD FOR A MEASURING SYSTEM - According to the invention, the calibration measuring cycle is divided into several, particularly a plurality of partial cycles, with which one or more of the calibration measurements are associated. While maintaining the cycle, the partial cycles are now carried out in one of the positioning pauses such that the calibration measuring cycle is distributed over several, in particular a plurality of, positioning pauses and is integrated into the flow of the industrial process without interfering with the same. | 04-26-2012 |
20130093882 | GEODETIC SURVEYING DEVICE HAVING AUTOMATIC HIGH-PRECISION TARGET POINT SIGHTING FUNCTIONALITY - A geodatic surveying device which is equipped with an automatic target point sighting functionality for determining the position of a target point. A reticle pattern that corresponds to the outer shape of the known reticle is stored, wherein a main point of the reticle pattern is predefined as indicating the target point. In order to carry out an automatic target point sighting functionality, the evaluation means are designed such that, after the function start, a camera image of the reticle is automatically recorded, the reticle pattern is aligned with the reticle in the camera image by means of image processing and, depending on a position of the main point in the camera image in the matched state of the reticle pattern, the orientation of the sighting apparatus is changed in a motorized manner such that the optical target axis OA is oriented with high precision at the target point. | 04-18-2013 |
20130094707 | METHOD FOR VERIFYING A SURVEYING INSTRUMENT'S EXTERNAL ORIENTATION - Verifying surveying instrument's external orientation during a measurement process, comprising directing the imaging means onto a reference object and detecting a first photographing direction of the imaging means, taking a first image of the reference object in the first photographing direction, memorizing the first image and the first photographing direction as being indicative of the surveying instrument's external orientation, re-directing the imaging means onto the reference object and detecting a second photographing direction of the imaging means, taking a second image of the reference object in the second photographing direction, and comparing a first with a second imaged position of the reference object in the first respectively the second image by image processing as well as the first with the second photographing direction and verifying the surveying instrument's external orientation based on disparities between the first and the second imaged position and/or between the first and the second photographing direction. | 04-18-2013 |
20140032021 | SYSTEM AND METHOD FOR CONTROLLING AN UNMANNED AIR VEHICLE - A geodetic measuring system having a geodetic measuring unit having a beam source for emitting a substantially collimated optical beam. The measuring system also has an automotive, unmanned, controllable air vehicle having an optical module. An evaluation unit is also provided, wherein the evaluation unit is configured in such a manner that an actual state of the air vehicle, as determined by a position, an orientation and/or a change in position, can be determined in a coordinate system from interaction between the optical beam and the optical module. The measuring system has a control unit for controlling the air vehicle, wherein the control unit is configured in such a manner that control data can be produced using an algorithm on the basis of the actual state, which can be continuously determined in particular, and a defined desired state, and the air vehicle can be automatically changed to the desired state. | 01-30-2014 |
20140046589 | MEASURING SYSTEM FOR DETERMINING 3D COORDINATES OF AN OBJECT SURFACE - A measuring system for determining 3D coordinates of measurement points on an object surface which has a scanning apparatus for measuring the measurement points on the object surface and for determining inner measurement point coordinates in an inner scanning coordinate system. Furthermore, a referencing arrangement for producing referencing information for referencing the inner measurement point coordinates in the outer object coordinate system and an evaluation unit for determining the 3D coordinates of the measurement points in the outer object coordinate system on the basis of the inner measurement point coordinates and the referencing information are provided such that the inner measurement point coordinates are in the form of 3D coordinates in the outer object coordinate system. The scanning apparatus is in this case carried in an unmanned, controllable, automotive air vehicle. | 02-13-2014 |
20140104419 | STRUCTURE MEASURING UNIT FOR TRACKING, MEASURING AND MARKING EDGES AND CORNERS OF ADJACENT SURFACES - A measuring unit having an edge tracking function which runs at least partially automatically. After an at least coarse alignment of a targeting unit having an alignment display function at a first corner known or defined by a user between adjacent surfaces of the structure and a recording of an image of the said first corner with the environment thereof, edge lines are identified as part of the edge tracking function by means of an edge definition by image processing, a query is made as to which of the identified edges lines should be tracked starting from the first corner or in which direction the identified edge line should be tracked starting from the first edge point a user-defined edge line is tracked automatically by the targeting unit at least as far as to a further corner, wherein spatial points situated along the user-defined edge line are measured if necessary. | 04-17-2014 |
20140105457 | METHOD FOR PROVIDING TARGET POINT CANDIDATES FOR SELECTING A TARGET POINT - Method for providing target point candidates forming a candidate set for selecting a target point from the candidate set by means of a geodetic measuring device. The measuring device is coarsely oriented toward the target point, and an image is recorded in the sighting direction. A search process for certain target object candidates in the recorded image is performed by means of image processing and wherein at least one respective point representing the target object candidate is associated with each of the target object candidates as a target point candidate. Candidates are associated with a candidate set. respective weight values are derived according to at least one value of a predetermined target point property of the candidates and associated with the target point candidates. The target point candidates from the candidate set are each provided together with respective information representing the weight value associated with the target point candidate. | 04-17-2014 |
20140210663 | MEASURING SYSTEM AND METHOD FOR DETERMINING NEW POINTS - A geodetic measuring system having at least one reference component which defines a reference point, wherein an absolute position of the reference point is known, and at least one new-point determination component which derives a relative new-point position. It is also possible to derive mutual relative reference information between the reference component and the new-point determination component, in particular for the purpose of referencing with respect to the reference-point position. The measuring system also has an automotive, unmanned, controllable air vehicle, wherein the air vehicle has the reference component which provides the at least one reference point as a mobile reference point. The air vehicle is also designed in such a manner that the reference component can be spatially freely displaced by the air vehicle, in particular can be positioned in a substantially fixed position. | 07-31-2014 |
20140247439 | MOBILE FIELD CONTROLLER FOR MEASUREMENT AND REMOTE CONTROL - A mobile field controller, together with a geodetic surveying device, forms a one-person measurement system for geodetic position determination. The field controller allows the spatial orientation of the field controller to be determined. The field controller supports a geodetic target object and has a distance-measuring unit that measures the distance between the field controller and a target point, the distance being optically marked by the field controller, as a result of which a 3D point cloud is generated without physical contact to a target point. When surveying a specific terrain region, algorithms analyzing the 3D point cloud are saved in a control and evaluation unit of the field controller. The absolute position of the target point is calculated from the data of the spatial orientation of the field controller, the distance between field controller and target point and the absolute position of the geodetic target object. | 09-04-2014 |
20140348388 | METHOD FOR VERIFYING A SURVEYING INSTRUMENT'S EXTERNAL ORIENTATION - Verifying surveying instrument's external orientation during a measurement process, comprising directing the imaging means onto a reference object and detecting a first photographing direction of the imaging means, taking a first image of the reference object in the first photographing direction, memorizing the first image and the first photographing direction as being indicative of the surveying instrument's external orientation, re-directing the imaging means onto the reference object and detecting a second photographing direction of the imaging means, taking a second image of the reference object in the second photographing direction, and comparing a first with a second imaged position of the reference object in the first respectively the second image by image processing as well as the first with the second photographing direction and verifying the surveying instrument's external orientation based on disparities between the first and the second imaged position and/or between the first and the second photographing direction. | 11-27-2014 |
20140350886 | GEODETIC SURVEYING SYSTEM AND METHOD WITH MULTIPLE TARGET TRACKING FUNCTIONALITY - A surveying system for surveying and tracking a movable target object that defines a target point includes a surveying device with a sighting unit defining a target axis and a detector for generating a continuously current amount-of-deviation signal dependent on a deviation from an optimal target orientation. A second unit on the target object side enables continuous determination of movements and/or positions of the target object with reference to an external coordinate system. The surveying system includes a target point tracking mode in which respective first measurement data currently generated by the first unit and the respective current amount-of-deviation signal and respective second measurement data currently generated by the second unit are continuously aggregated. On the basis thereof, a control signal is derived for continuous automatic motorized modification of the target axis orientation such that the target axis continuously aims at the target point. | 11-27-2014 |
20150022640 | METHOD AND SYSTEM FOR VOLUME DETERMINATION USING A STRUCTURE FROM MOTION ALGORITHM - A volume determining method for an object on a construction site is disclosed. The method may include moving a mobile camera along a path around the object while orienting the camera repeatedly onto the object. The method may include capturing a series of images of the object from different points on the path and with different orientations with the camera, the series being represented by an image data set; performing a structure from motion evaluation with a defined algorithm using the series of images and generating a spatial representation; scaling the spatial representation with help of given information about a known absolute reference regarding scale; defining a ground surface for the object and applying it onto the spatial representation; and calculating and outputting the absolute volume of the object based on the scaled spatial representation and the defined ground surface. | 01-22-2015 |
20150029489 | MEASURING DEVICE HAVING A SCANNING FUNCTIONALITY AND A SINGLE-POINT MEASUREMENT MODE - Embodiments described herein relate to a measuring device, comprising a base that defines a vertical axis, an assembly that can be pivoted about the vertical axis relative to the base, and a beam deflecting unit for varying the orientation of a measurement axis, wherein the beam deflecting unit can be rotated about a horizontal axis relative to the assembly. The measuring device further has a distance measurement functionality for measuring distance by means of the measurement radiation, an angle measurement functionality for determining an orientation of the measurement axis relative to the base, a control and processing unit for processing data and for controlling the measuring device, and a scanning functionality, wherein when the scanning functionality is executed, a scan is performed, and a point cloud comprising the scan points is produced. The assembly also has an imaging system. The measuring device may have a single-point measurement mode. | 01-29-2015 |
20150042790 | GEODETIC SURVEYING DEVICE WITH A MICROLENS ARRAY - Some embodiments relate to a geodetic surveying device, comprising a beam source for generating measurement radiation, a base defining a vertical axis, a support carrying a targeting unit and defining a tilt axis, the support being arranged on the base and rotatable relative to the base about the vertical axis, and the targeting unit being arranged rotatable relative to the support about the tilt axis, and an angle- and distance-measuring functionality. Moreover, provision is made for an image acquisition unit for acquiring images of an object in a field of view defined by the image acquisition unit, and a control and processing unit. The image acquisition unit comprises at least an image sensor and a microlens array with a multiplicity of diffractive and/or refractive optical elements arranged in a defined two-dimensional manner. | 02-12-2015 |
20150042977 | MEASUREMENT SYSTEM WITH A MEASURING DEVICE AND A SCANNING MODULE - The present invention relates to a measurement system | 02-12-2015 |