Patents by Inventor Jurg Hinderling
Jurg Hinderling has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9443308Abstract: A method for a six degree of freedom position and orientation determination of a known shape in a scenery is disclosed. The method includes taking a range image with a range imaging camera and a visual picture with a digital camera. The range imaging camera includes a sensor array with a first number of pixels. Determining a 3D cluster of points from range information collected from the sensor array to a point of the scenery. the digital camera comprises an image sensor having a second number of pixels, resulting in a 2D picture. A stored 3D digital representation of the known shape may be fitted in a virtual space to match the reproduction of the known object in the 2D picture and the 3D cluster of points and determining the six degree of freedom position and orientation of the known shape according to the virtual match.Type: GrantFiled: December 5, 2012Date of Patent: September 13, 2016Assignee: HEXAGON TECHNOLOGY CENTER GMBHInventors: Bo Pettersson, Knut Siercks, Eugen Voit, Jürg Hinderling, Benedikt Zebhauser, Klaus Schneider
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Publication number: 20160161598Abstract: Some embodiments of the invention may relate to a rangefinder, in particular for a laser scanner, laser tracker, profiler, theodolite, or a total station. In a special embodiment of the invention, the light source of the rangefinder—provided for the emission of pulsed light signals—is configured here as an optical fiber amplifier (e.g. an EDFA, i.e. erbium-doped fiber amplifier) which is optically pumped by a superluminescent diode (SLD) operated in a pulsed manner.Type: ApplicationFiled: December 3, 2015Publication date: June 9, 2016Inventors: Reto STUTZ, Jürg HINDERLING
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Publication number: 20160084651Abstract: Some embodiments of the invention relate to an electrooptical distance measuring device comprising light source, reception circuit comprising detector, in particular avalanche photodiode APD and control and evaluation component for deriving a distance to the target object. Some embodiments of the invention, the detector has at least two mutually independent reception segments for mutually independently generating a respective resultant electrical signal, wherein the reception segments are assigned to predefined or predefinable, in particular different, distance ranges to be measured. Furthermore, at least two independent amplifiers may be provided in the reception circuit. Some embodiments of the invention, therefore, for a reception segment which is assigned only to a lower distance range of comparatively near distances, an amplifier having a comparatively low gain factor can now be connected downstream, such that it is therefore possible as a result to avoid e.g.Type: ApplicationFiled: September 17, 2015Publication date: March 24, 2016Inventors: Jürg HINDERLING, Julien SINGER
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Publication number: 20150309175Abstract: The invention relates to a surveying apparatus, in particular tachymeter, laser scanner, profiler or laser tracker, comprising an electronic laser distance measuring module, which comprises an optical transmission channel and an optical reception channel for laser measurement radiation, wherein a variable optical attenuation unit for the laser measurement radiation is provided in the optical transmission channel and/or optical reception channel. According to the invention, light impinging on the attenuation unit is attenuated by means of liquid crystals. The attenuation unit comprises at least one polarizer, in particular comprising a polarization sheet, a liquid crystal shutter, in particular comprising nematic liquid crystals, having a variable transmission, a first analyzer, in particular comprising a polarization sheet.Type: ApplicationFiled: April 23, 2015Publication date: October 29, 2015Inventors: Jürg HINDERLING, Paul BENZ, Josef LAIS
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Publication number: 20150292876Abstract: Some embodiments of the invention relate to an optical measuring device for determining 3D coordinates of an object. The optical measuring device may include a projector device for illuminating the object with at least one predefined pattern; at least one PSA camera for capturing a 2D image of the pattern as reflected from the object; computing means for measuring a sequence of brightness values of at least one 2D image point from the 2D images, and calculating a 3D coordinate of an object point which is correlated with the measured sequence of brightness values of the 2D image point. The optical measuring device may also include a TOF camera for capturing at least one range image of the object, the range image including distance information of the object for the dissolution of ambiguity in calculating the 3D coordinate.Type: ApplicationFiled: October 31, 2013Publication date: October 15, 2015Applicant: HEXAGON TECHNOLOGY CENTER GMBHInventors: Bo PETTERSSON, Knut SIERCKS, Eugen VOIT, Jürg HINDERLING, Klaus SCHNEIDER, Benedikt ZEBHAUSER
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Publication number: 20150098075Abstract: Some embodiments of the invention relate to a surveying apparatus in the form of a scanner comprising a beam deflection unit, such a beam deflection unit and a measuring method to be carried out with said surveying apparatus. The surveying apparatus comprises a radiation source for generating measurement radiation and a detector for receiving reflected measurement radiation, called reflection radiation for short, which was reflected at an object of interest, wherein measurement radiation and reflection radiation have substantially the same optical path.Type: ApplicationFiled: October 9, 2014Publication date: April 9, 2015Inventors: Simon BESTLER, Jochen SCHEJA, Jürg HINDERLING
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Publication number: 20150085110Abstract: Embodiments described herein include a surveying apparatus for surveying a measurement scenery. The surveying apparatus may include a base defining a vertical axis; a support tiltable around the vertical axis; a telescope unit tiltable around the vertical axis and around a horizontal axis that is orthogonal to the vertical axis and comprises means for distance measurement; motor means for rotational driving of the support and the telescope unit; and angle determination means for detecting an orientation of the telescope unit with respect to the base. In some embodiments, the telescope unit comprises a first camera capable to take a visible image of the measurement scenery and/or means for capturing coordinates of 3D-points of the measurement scenery. In some embodiments, the surveying apparatus comprises a display capable to display at least a portion of the visible image taken by the first camera and/or at least a portion of the 3D-points.Type: ApplicationFiled: May 2, 2013Publication date: March 26, 2015Inventors: Bo Pettersson, Knut Siercks, Eugen Voit, Jürg Hinderling, Benedikt Zebhauser, Klaus Schneider
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Publication number: 20150049186Abstract: A coordinate measuring machine (1) for determining at least one spatial coordinate of a measurement point of an object (15) to be measured, comprising a base (5) and a drive mechanism, adapted to drive a probe head (13) in a manner such that the probe head (13) is capable to move relative to the base (5) for approaching a measurement point, characterised by a first range camera (3, 33) having a range image sensor with a sensor array, wherein the range camera (3, 33) is adapted to be directed to the object (15) for providing a range image (23) of the object (15), and wherein range pixels of the range image are used for creating a point cloud with 3D-positions of target points of the object (15), and a controller, adapted to control the drive mechanism on the basis of 3D-positions of the target points.Type: ApplicationFiled: December 6, 2012Publication date: February 19, 2015Applicant: HEXAGON TECHNOLOGY CENTER GMBHInventors: Bo Pettersson, Knut Siercks, Eugen Voit, Jürg Hinderling, Benedikt Zebhauser, Klaus Schneider, Pascal Jordil
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Publication number: 20150042790Abstract: 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.Type: ApplicationFiled: August 7, 2014Publication date: February 12, 2015Inventors: Jürg HINDERLING, Bernhard METZLER
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Publication number: 20150029489Abstract: 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.Type: ApplicationFiled: January 30, 2013Publication date: January 29, 2015Inventors: Bernhard Metzler, Jürg Hinderling, Thomas Jensen
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Publication number: 20140320603Abstract: The invention relates to a method for determining 3D coordinates of an object (2) by a handheld laser-based distance measuring device (1), the method comprising determining an object point (20) at the object (2); measuring a distance (100) from the handheld laser-based distance measuring device (1) to the determined object point (20) by means of an EDM (10); capturing a 3D image (110) of the object (2), the 3D image (110) includes the determined object point (20); identifying the determined object point (20) in the captured 3D image (110); and linking the measured distance (100) with the identified object point (20) in the 3D image (110). The invention also relates to a handheld laser-based distance measuring device (1) and a computer program product for execution of said method.Type: ApplicationFiled: December 6, 2012Publication date: October 30, 2014Inventors: Bo Pettersson, Knut Siercks, Eugen Voit, Jürg Hinderling, Benedikt Zebhauser, Klaus Schneider
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Publication number: 20140307252Abstract: Some embodiments of the invention may relate to an optical surveying device having a base for setting up the surveying device and a targeting unit, which is rotatable in relation to the base about two axes, and which defines a target axis or targeting a target object to be surveyed. In some embodiments, the targeting unit has a first beam path for emitting optical radiation in the direction of the target object to be surveyed and a second beam path for receiving a component of the optical radiation, which is reflected from the target object, by way of an optoelectronic receiving element. In some embodiments, at least one of the beam paths, has an optical element, which is implemented having an optically transparent, deformable volume body, and which has at least one interface toward a medium having an optical index of refraction deviating from the volume body.Type: ApplicationFiled: April 11, 2014Publication date: October 16, 2014Applicant: Hexagon Technology Center GmbHInventors: Jürg HINDERLING, Jochen SCHEJA, Charles Leopold Elisabeth DUMOULIN, Claudio ISELI
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Publication number: 20140286536Abstract: A method for a six degree of freedom position and orientation determination of a known shape in a scenery is disclosed. The method includes taking a range image with a range imaging camera and a visual picture with a digital camera. The range imaging camera includes a sensor array with a first number of pixels. Determining a 3D cluster of points from range information collected from the sensor array to a point of the scenery. The digital camera comprises an image sensor having a second number of pixels, resulting in a 2D picture. A stored 3D digital representation of the known shape may be fitted in a virtual space to match the reproduction of the known object in the 2D picture and the 3D cluster of points and determining the six degree of freedom position and orientation of the known shape according to the virtual match.Type: ApplicationFiled: December 5, 2012Publication date: September 25, 2014Applicant: HEXAGON TECHNOLOGY CENTER GMBHInventors: Bo Pettersson, Knut Siercks, Eugen Voit, Jürg Hinderling, Benedikt Zebhauser, Klaus Schneider
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Publication number: 20140125990Abstract: An optical measuring system determines coordinates of points for distance measurement. The measuring system includes a radiation source for emitting electromagnetic radiation and a receiving unit having a filter unit for extracting electromagnetic radiation in a defined wavelength range and having, a detector, such that the radiation extracted by the filter unit is detectable by the detector. The filter unit includes at least two mirror elements which are at least partly reflective and constructed in a multilayered fashion. The mirror elements are substantially parallel to one another. Two adjacent mirror elements in each case enclose a cavity and are arranged at a specific distance from one another. An optical thickness is defined by a refractive index of the cavity and by the distance between the mirror elements. Optical thickness varying means operate to varying the optical thickness, such that an extractable wavelength range of the filter unit is varied.Type: ApplicationFiled: July 25, 2012Publication date: May 8, 2014Applicant: HEXAGON TECHNOLOGY CENTER GMBHInventors: Jürg Hinderling, Knut Siercks
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Patent number: 7982859Abstract: According to the invention, a light signal is emitted to one or several targets in order to derive geodetic distance data therefrom. Apparatus components such as transmitters (1?) and receivers (4?) are modeled along with the targets (3a and 3b) as a linear, time-invariant system which is excited by means of a signal s(t) and the system response y(t) of which is recorded. Unlike in delay meters or phase meters, the distance data is derived from both the delay and the signal form of the system response.Type: GrantFiled: January 27, 2004Date of Patent: July 19, 2011Assignee: Leica Geosystems AGInventors: Jurg Hinderling, Paul Benz, Martin De Lange
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Patent number: 7864303Abstract: According to the invention, the sensitivity of a method for electronic measurement may be improved, carried out by the principle of heterodyne reception with the steps of broadcast of pulsed electromagnetic radiation (ES) with at least one pulse repetition frequency, reception of back-scattered radiation (RS), whereby the back-scattered radiation (RS) is converted into a received signal, mixing of the received signals, determination of at least one time parameter from the at least one output signal, whereby on mixing the received signals at least two pulsed mixed signals are mixed to give at least two output signals and the at least two mixed signals are phase-shifted relative to each other.Type: GrantFiled: December 9, 2005Date of Patent: January 4, 2011Assignee: Leica Geosystems AGInventors: Paul Benz, Jürg Hinderling, Martin De-Lange
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Patent number: 7818889Abstract: A target object (1a) used for retroflexion of optical radiation comprises at least six triple prisms (p1, p2), combined to give a 360 degree reflector which can be arranged on a geodetic measuring pole (6). The triple prisms (p1, p2) forming the 360 degree reflector are arranged in such a manner as to leave a clearance in the center of the 360 degree reflector for accommodating a section (6a) of the measuring pole (6). The prisms are also arranged in such a manner that the virtual images of the triple prism tips lie substantially in one plane perpendicular to a reference axis (10) that runs through the center of the 360 degree reflector and in parallel to the longitudinal direction of the measuring pole (6).Type: GrantFiled: September 27, 2007Date of Patent: October 26, 2010Assignee: Leica Geosystems AGInventors: Heinz Bernhard, Jürg Hinderling, Marco Petermann
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Patent number: 7672049Abstract: The invention relates to a telescope which is used to inject and/or to extract, by reflection, emitting and/or capturing bundles of beams. According to the invention, at least one deflecting means is joined to the planar surface by means of at least one lens of the telescope objective unit, which is embodied as a plan convex or plan concave lens. The lens is used as a lens of the objective unit and as a holder for the deflection means. The number of optical components in the telescope about one of the holders is reduced due to the dual function thereof.Type: GrantFiled: November 28, 2005Date of Patent: March 2, 2010Assignee: Leica Geosystems AGInventors: Andreas Fruhmann, Thomas Pozivil, Jürg Hinderling
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Patent number: 7623222Abstract: According to the invention, high precision distance measurement may be carried out by the broadcast of pulsed electromagnetic radiation (ES) with at least two pulse repetition frequencies, whereby the pulse repetition frequencies are selected such that the corresponding pulse separations do not have a common multiple in the range of the order of magnitude of a maximum external measurement range. The radiation is hence transmitted both to a target for measurement over the measurement path outside the device and also over a reference path inside the device, whereby the radiation (IS) passing along the reference path defines at least one start pulse and the radiation (ES) passing along the measurement path defines at least one stop pulse.Type: GrantFiled: December 9, 2005Date of Patent: November 24, 2009Assignee: Leica Geosystems AGInventors: Paul Benz, Jürg Hinderling, Martin De-Lang
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Publication number: 20090260240Abstract: A target object (1a) used for retroflexion of optical radiation comprises at least six triple prisms (p1, p2), combined to give a 360 degree reflector which can be arranged on a geodetic measuring pole (6). The triple prisms (p1, p2) forming the 360 degree reflector are arranged in such a manner as to leave a clearance in the center of the 360 degree reflector for accommodating a section (6a) of the measuring pole (6). The prisms are also arranged in such a manner that the virtual images of the triple prism tips lie substantially in one plane perpendicular to a reference axis (10) that runs through the center of the 360 degree reflector and in parallel to the longitudinal direction of the measuring pole (6).Type: ApplicationFiled: September 27, 2007Publication date: October 22, 2009Applicant: LEICA GEOSYSTEMS AGInventors: Heinz Bernhard, Jurg Hinderling, Marco Petermann