Patent application number | Description | Published |
20080239281 | ABSOLUTE DISTANCE METER - An absolute distance meter for measuring a distance to a target may include a synthesizer including a first quadrature modulator and structured to receive a reference signal having a reference frequency and output a first signal having a first frequency and a second signal having a second frequency, a laser structured to output a laser beam, wherein the laser beam is modulated by the second signal, an optical system for directing the laser beam toward the target, a reference phase calculating system structured to calculate a reference phase based on signals having the first frequency and the second frequency, a target optical detector structured to receive at least a portion of the laser beam returned from the target and structured to output a measured electrical signal having the second frequency based on the at least a portion of the laser beam, and a measure phase calculating system structured to calculate a measure phase based on the measured electrical signal and the first signal. | 10-02-2008 |
20090066932 | ABSOLUTE DISTANCE METER THAT MEASURES A MOVING RETROREFLECTOR - A laser device and method capable of one or more dimensional absolute distance measurements and/or surface scanning and/or coordinate measurements of a moving external retroreflector or other moving target surfaces without using an incremental interferometer. | 03-12-2009 |
20090109426 | SELF-COMPENSATING LASER TRACKER - A self-compensating laser tracker may include a frame assembly including a laser, and at least two-embedded, non-moveable, reflecting members; and a rotatable mirror. The laser and the mirror are arranged such that a laser beam emitted from the laser may be reflected by the mirror. One of the at least two reflecting members may be a cube corner retroreflector and a second of the at least two reflecting members may be a frame assembly mirror. The cube corner retroreflector and the frame assembly mirror may be fixed in position on the frame assembly relative to the rotatable payload and relative to each other, and are structured to reflect the laser beam in a frontsight mode and a backsight mode. | 04-30-2009 |
20100128259 | DEVICE AND METHOD FOR MEASURING SIX DEGREES OF FREEDOM - A laser tracker system for measuring six degrees of freedom may include a main optics assembly structured to emit a first laser beam, a pattern projector assembly structured to emit a second laser beam shaped into a two-dimensional pattern, and a target. The target may include a retroreflector and a position sensor assembly. A center of symmetry of the retroreflector may be provided on a different plane than a plane of the position sensor assembly. A method of measuring orientation of a target may include illuminating the target with a laser beam comprising a two-dimensional pattern, recording a position of the two-dimensional pattern on a position sensor assembly to create a measured signature value of the two-dimensional pattern, and calculating an orientation of the target based on the measured signature value. | 05-27-2010 |
20110001958 | LASER-BASED COORDINATE MEASURING DEVICE AND LASER-BASED METHOD FOR MEASURING COORDINATES - A laser based coordinate measuring device measures a position of a remote target. The laser based coordinate measuring device includes a stationary portion, a rotatable portion, and at least a first optical fiber. The stationary portion has at least a first laser radiation source and at least a first optical detector, and the rotatable portion is rotatable with respect to the stationary portion. The first optical fiber system, which optically interconnects the first laser radiation source and the first optical detector with an emission end of the first optical fiber system, has the emission end disposed on the rotatable portion. The emission end emits laser radiation to the remote target and receives laser radiation reflected from the remote target with the emission direction of the laser radiation being controlled according to the rotation of the rotatable portion. | 01-06-2011 |
20110007305 | LASER-BASED COORDINATE MEASURING DEVICE AND LASER-BASED METHOD FOR MEASURING COORDINATES - A laser based coordinate measuring device measures a position of a remote target. The laser based coordinate measuring device includes a stationary portion, a rotatable portion, and at least a first optical fiber. The stationary portion has at least a first laser radiation source and at least a first optical detector, and the rotatable portion is rotatable with respect to the stationary portion. The first optical fiber system, which optically interconnects the first laser radiation source and the first optical detector with an emission end of the first optical fiber system, has the emission end disposed on the rotatable portion. The emission end emits laser radiation to the remote target and receives laser radiation reflected from the remote target with the emission direction of the laser radiation being controlled according to the rotation of the rotatable portion. | 01-13-2011 |
20110007327 | LASER-BASED COORDINATE MEASURING DEVICE AND LASER-BASED METHOD FOR MEASURING COORDINATES - A laser based coordinate measuring device measures a position of a remote target. The laser based coordinate measuring device includes a stationary portion, a rotatable portion, and at least a first optical fiber. The stationary portion has at least a first laser radiation source and at least a first optical detector, and the rotatable portion is rotatable with respect to the stationary portion. The first optical fiber system, which optically interconnects the first laser radiation source and the first optical detector with an emission end of the first optical fiber system, has the emission end disposed on the rotatable portion. The emission end emits laser radiation to the remote target and receives laser radiation reflected from the remote target with the emission direction of the laser radiation being controlled according to the rotation of the rotatable portion. | 01-13-2011 |
20110032509 | ABSOLUTE DISTANCE METER WITH OPTICAL SWITCH - An absolute distance meter (ADM) that determines a distance to a target includes a light source that emits an emitted light beam. The ADM also includes a fiber switching network having at least one optical switch that switches between at least two positions in response to a switch control signal, a first one of the positions enabling a measure mode in which the emitted light beam is emitted from the fiber switching network towards the target and is reflected back as a measure light beam into the fiber switching network, a second one of the positions enabling a reference mode in which the light beam comprises a reference light beam within the fiber switching network. The ADM further includes a single channel detector that detects the measure and reference light beams in a temporally spaced multiplexed manner and provides an electrical signal which corresponds to the detected measure and reflected light beams. Also, the ADM includes a single channel signal processor that processes the electrical signal and provides a conditioned electrical signal in response thereto, and a data processor that processes the conditioned electrical signal to determine the distance to the target. | 02-10-2011 |
20110088271 | MOUNTED SCALE BAR - A scale-bar artifact can include a base, a structural component, at least two nests disposed on the structural component and configured to receive a spherically shaped object having a center, and at least three mounting assemblies, each mounting assembly including a first portion and a second portion. The second portion of each mounting assembly is coupled to the base. The first portion of each mounting assembly is coupled to the structural component. The first portion and second portion of each mounting assembly are in mutual contact. Each mounting assembly has a center of rotation. The centers of rotation of the three mounting assemblies share a common plane with the centers of the spherically shaped objects. | 04-21-2011 |
20110170113 | LASER-BASED COORDINATE MEASURING DEVICE AND LASER-BASED METHOD FOR MEASURING COORDINATES - A laser based coordinate measuring device measures a position of a remote target. The laser based coordinate measuring device includes a stationary portion, a rotatable portion, and at least a first optical fiber. The stationary portion has at least a first laser radiation source and at least a first optical detector, and the rotatable portion is rotatable with respect to the stationary portion. The first optical fiber system, which optically interconnects the first laser radiation source and the first optical detector with an emission end of the first optical fiber system, has the emission end disposed on the rotatable portion. The emission end emits laser radiation to the remote target and receives laser radiation reflected from the remote target with the emission direction of the laser radiation being controlled according to the rotation of the rotatable portion. | 07-14-2011 |
20110178763 | USE OF INCLINOMETERS TO IMPROVE RELOCATION OF A PORTABLE ARTICULATED ARM COORDINATE MEASURING MACHINE - A method of relocating a portable articulated arm coordinate measuring machine (AACMM) from a first location to a second location, wherein the AACMM has, at the first location, a first origin point and a first frame of reference and, at the second location, a second origin point and a second frame of reference, the method including the steps of: measuring an amount of tilt of the portable AACMM along two perpendicular directions, each of which are approximately perpendicular to a gravity vector, with the portable AACMM in each of the first and second locations; measuring a first target and a second target with the portable AACMM in the first location to obtain, in the first frame of reference, a first set of x, y, and z coordinates and a second set of x, y, and z coordinates; measuring the first target and the second target with the portable AACMM in the second location to obtain, in the second frame of reference, a third set of x, y, and z coordinates and a fourth set of x, y, and z coordinates; and finding x, y, and z coordinates of the second origin point with respect to the first frame of reference, wherein the x, y, and z coordinates of the second origin point are found using the first, second, third, and fourth sets of x, y, and z coordinates but without using additional x, y, and z coordinates of a third target measured with the AACMM at the first location and at the second location. | 07-21-2011 |
20110260033 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - A method for optically communicating, from a user to a laser tracker, a command to control operation of the laser tracker includes steps of providing a rule of correspondence between each of a plurality of commands and each of a plurality of spatial patterns, and selecting by the user a first command from among the plurality of commands. The method further includes the steps of moving by the user, between a first time and a second time, a retroreflector in a first spatial pattern from among the plurality of spatial patterns, wherein the first spatial pattern corresponds to the first command, and projecting a first light from the laser tracker to the retroreflector. The method also includes the steps of reflecting a second light from the retroreflector, the second light being a portion of the first light, and obtaining first sensed data by sensing a third light, the third light being a portion of the second light, wherein the first sensed data is obtained by the laser tracker between the first time and the second time. The method includes also the steps of determining the first command based at least in part on processing the first sensed data according to the rule of correspondence, and executing the first command with the laser tracker. | 10-27-2011 |
20120099096 | LASER-BASED COORDINATE MEASURING DEVICE AND LASER-BASED METHOD FOR MEASURING COORDINATES - A laser based coordinate measuring device measures a position of a remote target. The laser based coordinate measuring device includes a stationary portion, a rotatable portion, and at least a first optical fiber. The stationary portion has at least a first laser radiation source and at least a first optical detector, and the rotatable portion is rotatable with respect to the stationary portion. The first optical fiber system, which optically interconnects the first laser radiation source and the first optical detector with an emission end of the first optical fiber system, has the emission end disposed on the rotatable portion. The emission end emits laser radiation to the remote target and receives laser radiation reflected from the remote target with the emission direction of the laser radiation being controlled according to the rotation of the rotatable portion. | 04-26-2012 |
20120099119 | LASER-BASED COORDINATE MEASURING DEVICE AND LASER-BASED METHOD FOR MEASURING COORDINATES - A laser based coordinate measuring device measures a position of a remote target. The laser based coordinate measuring device includes a stationary portion, a rotatable portion, and at least a first optical fiber. The stationary portion has at least a first laser radiation source and at least a first optical detector, and the rotatable portion is rotatable with respect to the stationary portion. The first optical fiber system, which optically interconnects the first laser radiation source and the first optical detector with an emission end of the first optical fiber system, has the emission end disposed on the rotatable portion. The emission end emits laser radiation to the remote target and receives laser radiation reflected from the remote target with the emission direction of the laser radiation being controlled according to the rotation of the rotatable portion. | 04-26-2012 |
20120206716 | TARGET APPARATUS AND METHOD - A target includes a contact element having a region of spherical curvature, a retroreflector rigidly connected to the contact element, a transmitter configured to emit an electromagnetic signal, a temperature sensor disposed on the target, configured to measure an air temperature, and configured to send the measured air temperature to the transmitter. | 08-16-2012 |
20120236320 | AUTOMATIC MEASUREMENT OF DIMENSIONAL DATA WITH A LASER TRACKER - Measuring with a system having retroreflector targets and a laser tracker includes storing a list of nominal coordinates for targets and one added point; capturing on a tracker photosensitive array a portion of the light emitted by a light beam and reflected off the targets; obtaining spot positions on a tracker camera photosensitive array from light reflected off the targets; determining a correspondence between three spot positions on the tracker photosensitive array and the nominal coordinates of the targets; directing a beam of light from the tracker to the targets based on the nominal coordinates of the first target and the first spot position; measuring 3-D coordinates of the targets with the tracker; determining 3-D coordinates of the at least one added point based on the measured 3-D coordinates of the targets and the nominal coordinates of the one added point. | 09-20-2012 |
20120260512 | COORDINATE MEASUREMENT MACHINES WITH REMOVABLE ACCESSORIES - A portable articulated arm coordinate measuring machine for measuring the coordinates of an object in space is provided. The AACMM includes a base and a arm portion having an opposed first end and second end. The arm portion includes a plurality of connected arm segments, each arm segment including at least one position transducer for producing a position signal. An electronic circuit is provided that receives the position signal from the at least one position transducer. A probe member is disposed is coupled to the first end. A noncontact three-dimensional measuring device is coupled to the probe member, the device having an electromagnetic radiation transmitter and is configured to determine a distance to an object based at least in part on the propagation time of the emitted and reflected light beams. | 10-18-2012 |
20120262550 | SIX DEGREE-OF-FREEDOM LASER TRACKER THAT COOPERATES WITH A REMOTE STRUCTURED-LIGHT SCANNER - Measuring three surface sets on an object surface with a measurement device and scanner, each surface set being 3D coordinates of a point on the object surface. The method includes: the device sending a first light beam to the first retroreflector and receiving a second light beam from the first retroreflector, the second light beam being a portion of the first light beam, a scanner processor and a device processor jointly configured to determine the surface sets; selecting the source light pattern and projecting it onto the object to produce the object light pattern; imaging the object light pattern onto a photosensitive array to obtain the image light pattern; obtaining the pixel digital values for the image light pattern; measuring the translational and orientational sets with the device; determining the surface sets corresponding to three non-collinear pattern elements; and saving the surface sets. | 10-18-2012 |
20120262573 | SIX DEGREE-OF-FREEDOM LASER TRACKER THAT COOPERATES WITH A REMOTE LINE SCANNER - A method of measuring surface sets on an object surface with a coordinate measurement device and a target scanner, includes providing the scanner having a body, a first retroreflector incorporating a pattern, a projector, a camera, and a processor, providing the device, selecting the source pattern of light; projecting the source pattern of light onto the object to produce the object pattern of light; imaging the object pattern of light onto the photosensitive array to obtain the image pattern of light; obtaining the pixel digital values for the image pattern of light; sending the first beam of light from the device to the first retroreflector; receiving the second beam of light from the first retroreflector; measuring the orientational and translational sets based at least in part on the second beam of light; determining the surface sets corresponding to the plurality of collinear pattern elements; and saving the surface sets. | 10-18-2012 |
20120262692 | LASER TRACKER THAT COMBINES TWO DIFFERENT WAVELENGTHS WITH A FIBER-OPTIC COUPLER - Coordinate measurement device configured to send a first beam of light to a target includes first and second light sources configured to emit first and second lights having differing first and second wavelengths; fiber-optic coupler that includes three ports, a first port configured to accept a first portion of the first light, a second port configured to accept a second portion of the second light, a third port configured to transmit a third light which includes a portion of the first and second portions; first and second angle measuring devices configured to measure first and second angles of rotation; distance meter configured to measure a first distance from the device to the target based at least in part on a third portion of the second beam received by an optical detector; and a processor configured to provide 3D coordinates of the target. | 10-18-2012 |
20120262693 | ABSOLUTE DISTANCE METER THAT USES A FIBER-OPTIC SWITCH TO REDUCE DRIFT - A measurement device is configured to send a first light beam to a target which returns a reflected portion. The device includes a switch configured to receive a first signal, and to send the second portion out of the switch measure port if the first signal is in the first state or out of the switch reference port if the first signal is in the second state. The device also includes a first electrical circuit configured to provide the first signal, to convert the third portion into a first reference value, to convert the fifth portion into a first measure value if the first signal is in the first state, and to convert the seventh portion into a second reference value if the first signal is in the second state; and a processor configured to determine a first distance from the device to the target. | 10-18-2012 |
20120262697 | ABSOLUTE DISTANCE METER BASED ON AN UNDERSAMPLING METHOD - A measurement system includes a signal generator producing an RF modulation frequency and sampling frequency and sending the sampling frequency to an ADC, and sending the RF frequency to modulate a first light source to produce a first light; an optical system sending a portion of the first light to a reference optical detector a portion of the first light out a measurement device to a target that returns a second light to the optical system which sends the second light to a measure optical detector, the reference and measure optical detectors converting the optical signals into corresponding electrical signals; a first ADC channel receiving the electrical measure signal and producing digital measure values; a second ADC channel receiving the electrical reference signal and producing digital reference values; and a processor receiving the digital measure and reference values and calculating the device to target distance. | 10-18-2012 |
20120262728 | SIX DEGREE-OF-FREEDOM LASER TRACKER THAT COOPERATES WITH A REMOTE PROJECTOR TO CONVEY INFORMATION - A method of conveying information to a user of a coordinate measurement device, includes providing a first target projector, sending a first light beam from the device to a retroreflector; receiving a second light beam from the retroreflector; measuring the orientational and translational sets, the translational set based on the second light beam; selecting first information to be conveyed from the group consisting of one or more positions on the object, a direction indicated by a moving pattern, a message that includes one or more symbols or alphanumeric characters, a hidden feature, a measured object characteristic, a modeled characteristic, a magnified representation of surface characteristics, a pattern having meaning according to a rule, and combinations thereof; determining a first light pattern corresponding to the information; storing the first light pattern; and projecting the first light pattern onto the object based on the translational and orientational sets. | 10-18-2012 |
20120265479 | SIX DEGREE-OF-FREEDOM LASER TRACKER THAT COOPERATES WITH A REMOTE SENSOR - A method of measuring with a coordinate measurement device and a target sensor a sense characteristic and a surface set associated with the sense characteristic, the method including the steps of: providing the target sensor having a body, a first retroreflector, a sensor, and a sensor processor, providing the coordinate measurement device, sending the first beam of light from the coordinate measurement device to the first retroreflector; receiving the second beam of light from the first retroreflector; measuring the orientational set and the translational set, the translational set based at least in part on the second beam of light; determining the surface set; sensing the sense characteristic; and saving the surface set and the sense characteristic. | 10-18-2012 |
20120327390 | METHODS FOR USING A LOCATOR CAMERA IN A LASER TRACKER - A method of steering a laser beam from an instrument toward a point on a retroreflector, including: intercepting with the retroreflector a cone of light from the instrument; obtaining a first image of retroreflected light on a photosensitive array and transmitting an electrical data signal in response; determining a position on the photosensitive array of the first image; calculating first and second angular increments to steer the laser beam to the point; rotating the first and second motors to intercept with the position detector the retroreflected laser beam and to place the laser beam at a preferred location on the position detector; measuring fifth and sixth angles with first and second angle transducers; measuring a distance with a distance meter; and determining three-dimensional coordinates of the point based at least in part on the fifth angle, the sixth angle, and the distance. | 12-27-2012 |
20130009035 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - A method for optically communicating, from a user to a laser tracker, a command to control operation of the tracker includes providing a rule of correspondence between a plurality of commands and a plurality of positions, each position being a 3-D coordinate; selecting by the user a first command from among the commands and moving by the user a retroreflector to a first position wherein the first position corresponds to the first command. Also, projecting a first light from the tracker to the retroreflector, reflecting a second light from the retroreflector, the second light being a portion of the first light and obtaining first sensed data by sensing a third light, the third light being a portion of the second light. Further, determining the first command based on processing the first sensed data according to the rule of correspondence and executing the first command with the tracker. | 01-10-2013 |
20130010308 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - A method for optically communicating, from a user to a six degree-of-freedom (6DOF) laser tracker, a command to control operation of the tracker includes providing a rule of correspondence between commands and pose patterns, each pattern including a change in a coordinate from an initial to a final pose, each pose having three translational coordinates and three orientational coordinates. Also, selecting a first command from among the commands and measuring the coordinate of a first pose of the 6DOF target with the tracker. Further, changing between first and second times, the coordinate of the pose of the target and measuring the coordinate of a second pose of the target with the tracker. Also, determining the first command based on the difference between the measured coordinates of the first and second poses according to the rule of correspondence and executing the first command by the tracker. | 01-10-2013 |
20130016190 | GRATING-BASED SCANNER WITH PHASE AND PITCH ADJUSTMENT - A method for determining three-dimensional coordinates of an object point on a surface of an object, the method including steps of: sending a beam of light to a diffraction grating; sending a first diffracted beam and a second diffracted beam to an objective lens to form at least two spots of light, which are passed through transparent regions of a plate to produce a first fringe pattern on the surface of the object; imaging the object point illuminated by the first fringe pattern onto a photosensitive array to obtain a first electrical data value; moving the plate to a second position; sending spots through plate to produce a second fringe pattern on the surface of the object; imaging the point onto the array point to obtain a second electrical data value; and calculating the three-dimensional coordinates of the first object point. | 01-17-2013 |
20130016338 | SCANNER WITH PHASE AND PITCH ADJUSTMENT - A method for determining three-dimensional coordinates of an object point on a surface of an object, including steps of providing a transparent plate having a first region and a second region, the second region having a different wedge angle than the first region; splitting a first beam of light into a first light and a second light; sending the first light through the first region or the second region; combining the first light and the second light to produce a fringe pattern on the surface of the object, the pitch of the fringe pattern depending on the wedge angle through which the first light travels; imaging the object point onto an array point on a photosensitive array to obtain an electrical data value; determining the three-dimensional coordinates of the first object point based at least in part on the electrical data value. | 01-17-2013 |
20130037694 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - A method for optically communicating, from a user to a laser tracker, a command to control tracker operation includes providing a rule of correspondence between commands and temporal patterns, and selecting by the user a first command. Also, projecting a first light from the tracker to the retroreflector, reflecting a second light from the retroreflector, the second light being a portion of the first light, obtaining first sensed data by sensing a third light which is a portion of the second light, creating by the user, between first and second times, a first temporal pattern which includes a decrease in the third optical power followed by an increase in the third optical power, the first temporal pattern corresponding to the first command, determining the first command based on processing the first sensed data per the rule of correspondence and executing the first command with the tracker. | 02-14-2013 |
20130097882 | COORDINATE MEASUREMENT MACHINES WITH REMOVABLE ACCESSORIES - A portable articulated arm coordinate measuring machine for measuring the coordinates of an object in space is provided. The AACMM includes a base and an arm portion having an opposed first and second ends. The arm portion including a plurality of connected arm segments that each includes at least one position transducer for producing a position signal. An electronic circuit is provided that receives the position signal from the at least one position transducer and provides data corresponding to a position of the measurement device. A noncontact three-dimensional measuring device is coupled to the first end, the device having an electromagnetic radiation transmitter and is configured to determine a distance to an object based at least in part on the speed of light in air. A processor is configured to determine the three-dimensional coordinates of a point on the object in response to receiving the position signals and the distance to the object. | 04-25-2013 |
20130128284 | AUTOMATIC MEASUREMENT OF DIMENSIONAL DATA WITH A LASER TRACKER - Measuring with a system having retroreflector targets and a laser tracker includes storing a list of nominal coordinates for three targets and at least one added point; capturing on a photosensitive array of the tracker a portion of the light emitted by a light beam and reflected off the three targets; obtaining spot positions on a photosensitive array of a tracker camera from light reflected off the three targets; determining a correspondence between three spot positions on the tracker photosensitive array and the nominal coordinates of the three targets; directing a beam of light from the tracker to the three targets based at least in part on the nominal coordinates of the first target and the first spot position; measuring 3-D coordinates of the three targets with the tracker; determining 3-D coordinates of the at least one added point based at least in part on the measured 3-D coordinates of the three targets and the nominal coordinates of the at least one added point. | 05-23-2013 |
20130155386 | LASER TRACKER USED WITH SIX DEGREE-OF-FREEDOM PROBE HAVING SEPARABLE SPHERICAL RETROREFLECTOR - A method for measuring three-dimensional coordinates of a probe center includes: providing a spherically mounted retroreflector; providing a probe assembly; providing an orientation sensor; providing a coordinate measurement device; placing the spherically mounted retroreflector on the probe head; directing the first beam of light from the coordinate measurement device to the spherically mounted retroreflector; measuring the first distance; measuring the first angle of rotation; measuring the second angle of rotation; measuring the three orientational degrees of freedom based at least in part on information provided by the orientation sensor; calculating the three-dimensional coordinates of the probe center based at least in part on the first distance, the first angle of rotation, the second angle of rotation, and the three orientational degrees of freedom; and storing the three-dimensional coordinates of the probe center. | 06-20-2013 |
20130201470 | TARGET APPARATUS AND METHOD - A method is provided of obtaining the characteristics of a target by a device. The method includes providing the target having a target frame of reference, a retroreflector and a body. Providing a contact element rigidly fixed with respect to the body. A device is provided having a frame of reference and a light source, the device configured to measure a distance and two angles from the device to the retroreflector reference point. An identifier element located on the body. A workpiece surface is provided. The contact element contacts the workpiece surface. The retroreflector is illuminated with light from the light source and returns a reflected light. A distance and two angles are measured based at least in part on the reflected light. The first information is read with a first reader attached to the device. A three-dimensional coordinate of a point on the workpiece surface is calculated. | 08-08-2013 |
20130202010 | TARGET APPARATUS AND METHOD - A target is provided having a retroreflector. A body is provided having a spherical exterior portion, the body containing a cavity. The cavity is sized to hold the retroreflector, the cavity open to the exterior of the body and having at least one surface opposite the opening, the retroreflector at least partially disposed in the cavity, wherein the retroreflector and at least one surface define a space therebetween. A transmitter is configured to emit an electromagnetic signal. A first actuator is configured to initiate emission of the electromagnetic signal, wherein the transmitter and the first actuator are affixed to the body. | 08-08-2013 |
20130208128 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - A laser measurement system includes a laser tracker having a structure rotatable about first and second axes, a first light source that launches a light beam from the structure, a distance meter, first and second angular encoders that measure first and second angles of rotation about the first and second axes, respectively, a processor, and a camera system. Also, a communication device that includes a second light source and an operator-controlled device that controls emission of a light from the second light source; a retroreflector target not disposed on the communication device. Also, the camera system is operable to receive the second light and to convert it into a digital image, and the processor is operable to determine a command to control operation of the tracker based on a pattern of movement of the second light source between first and second times and the digital image. | 08-15-2013 |
20130212889 | COORDINATE MEASUREMENT MACHINES WITH REMOVABLE ACCESSORIES - A portable articulated arm coordinate measuring machine for measuring the coordinates of an object in space is provided. The AACMM includes a base and an arm portion having an opposed first and second ends. The arm portion including a plurality of connected arm segments that each includes at least one position transducer for producing a position signal. An electronic circuit is provided that receives the position signal from the at least one position transducer and provides data corresponding to a position of the measurement device. A noncontact three-dimensional measuring device is coupled to the first end, the device having an electromagnetic radiation transmitter and is configured to determine a distance to an object based at least in part on the speed of light in air. A processor is configured to determine the three-dimensional coordinates of a point on the object in response to receiving the position signals and the distance to the object. | 08-22-2013 |
20130214122 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - A method for optically communicating, from a user to a laser tracker, a command to direct a light beam from the tracker to a retroreflector and lock onto the retroreflector includes projecting a first light to the retroreflector. Also, moving by the user the retroreflector in a predefined spatial pattern which corresponds to the command; reflecting a second light from the retroreflector, the second light being a portion of the first light; obtaining first sensed data by sensing a third light which is a portion of the second light and imaging the third light onto a photosensitive array on the tracker and converting the third light on the photosensitive array into digital form. Further, determining the first sensed data corresponds to the predefined spatial pattern; pointing the light beam from the tracker to the retroreflector; and locking onto the retroreflector with the tracker light beam. | 08-22-2013 |
20130222791 | AUTOMATIC MEASUREMENT OF DIMENSIONAL DATA WITH A LASER TRACKER - Measuring with a system having retroreflector targets and a laser tracker includes storing a list of coordinates for three targets and at least one added point; capturing on a photosensitive array a portion of the light emitted by a light beam and reflected off the targets; obtaining spot positions on a photosensitive array of a tracker camera from the reflected light; determining a correspondence between three spot positions on the photosensitive array and the coordinates of the targets; directing a beam of light from the tracker to the targets based at least in part on the coordinates of the first target and the first spot position; measuring 3-D coordinates of the targets with the tracker; determining 3-D coordinates of the at least one added point based at least in part on the measured 3-D coordinates of the targets and the coordinates of the at least one added point. | 08-29-2013 |
20130229512 | METHOD FOR USING A HANDHELD APPLIANCE TO SELECT, LOCK ONTO, AND TRACK A RETROREFLECTOR WITH A LASER TRACKER - A method for locking onto and tracking a selected retroreflector target with a laser tracker includes steps of: actuating by the operator the handheld appliance and sending a wireless signal; responding to the wireless message by repetitively carrying out steps in the following loop and exiting the loop when an exit condition is met: reflecting part of the cone of light by the at least one retroreflector target and capturing an array image on the photosensitive array; determining which retroreflector target meets the retroreflector target criterion; determining whether the position detector is receiving the reflected beam; establishing that the exit condition is met when the position detector receives the reflected beam and the reflected beam comes from the selected retroreflector target; and steering the first light beam toward the selected retroreflector target. | 09-05-2013 |
20130250285 | DEVICE AND METHOD FOR MEASURING SIX DEGREES OF FREEDOM - A laser tracker system for measuring six degrees of freedom may include a main optics assembly structured to emit a first laser beam, a pattern projector assembly structured to emit a second laser beam shaped into a two-dimensional pattern, and a target. The target may include a retroreflector and a position sensor assembly. A center of symmetry of the retroreflector may be provided on a different plane than a plane of the position sensor assembly. A method of measuring orientation of a target may include illuminating the target with a laser beam comprising a two-dimensional pattern, recording a position of the two-dimensional pattern on a position sensor assembly to create a measured signature value of the two-dimensional pattern, and calculating an orientation of the target based on the measured signature value. | 09-26-2013 |
20130293684 | THREE-DIMENSIONAL COORDINATE SCANNER AND METHOD OF OPERATION - A noncontact optical three-dimensional measuring device that includes a first projector, a first camera, a second projector, and a second camera; a processor electrically coupled to the first projector, the first camera, the second projector, and the second camera; and computer readable media which, when executed by the processor, causes the first digital signal to be collected at a first time and the second digital signal to be collected at a second time different than the first time and determines three-dimensional coordinates of a first point on the surface based at least in part on the first digital signal and the first distance and determines three-dimensional coordinates of a second point on the surface based at least in part on the second digital signal and the second distance. | 11-07-2013 |
20130308117 | APPARATUS AND METHOD TO COMPENSATE BEARING RUNOUT IN LASER TRACKER - An apparatus and method for correcting errors in measurement of three-dimensional coordinates of a retroreflector by a coordinate measurement device is provided. The method includes measuring a plurality of first angles, a plurality of first and second displacements along an axis, sending a beam of light to the retroreflector target, measuring two angles and a distance to the retroreflector, and determining the three-dimensional coordinates of the retroreflector. | 11-21-2013 |
20140098381 | METHOD FOR CORRECTING THREE-DIMENSIONAL MEASUREMENTS OF A SPHERICALLY MOUNTED RETROREFLECTOR - A method of measuring spherically mounted retroreflector (SMR) with a 3D coordinate measurement device such as a laser tracker. The SMR includes an open-air cube corner retroreflector having a vertex point located near a sphere center of the SMR. Measurements of the SMR to the vertex point are moved to the SMR sphere center by accounting for SMR depth error and SMR runout error. | 04-10-2014 |
20140098382 | SPHERICALLY MOUNTED RETROREFLECTOR HAVING AN EMBEDDED TEMPERATURE SENSOR AND SOCKET - A spherically mounted retroreflector (SMR) having an embedded temperature sensor and a socket for attaching to an electrical connector. | 04-10-2014 |
20140098383 | METHOD FOR MEASURING 3D COORDINATES OF A SPHERICALLY MOUNTED RETROREFLECTOR FROM MULTIPLE STATIONS - A method of measuring spherically mounted retroreflector (SMR) with a 3D coordinate measurement device such as a laser tracker. The SMR includes an open-air cube corner retroreflector having a vertex point located near a sphere center of the SMR. Measurements of the SMR to the vertex point are corrected to indicate 3D coordinates of the SMR sphere center by accounting for SMR depth error and SMR runout error. | 04-10-2014 |
20140158860 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - Optically communicating from a user to a laser tracker a command to control tracker operation includes providing a rule of correspondence between each of a plurality of commands and temporal patterns; user selecting a first command; projecting a first light from the tracker to a retroreflector; reflecting a second light from the retroreflector that is part of the first light; obtaining first sensed data by sensing a third light imaged onto a photosensitive array that is part of the second light; user creating, between first and second times, a first temporal pattern including at least a decrease in the third light's optical power followed by an increase in its optical power, the first temporal pattern corresponding to the first command; determining the first command based at least in part on processing the first sensed data according to the rule of correspondence; and executing the first command with the tracker. | 06-12-2014 |
20140185059 | AUTOMATIC MEASUREMENT OF DIMENSIONAL DATA WITH A LASER TRACKER - Measuring with a system having retroreflector targets and a laser tracker includes storing a list of coordinates for three targets and at least one added point; capturing on a photosensitive array a portion of the light emitted by a light beam and reflected off the targets; obtaining spot positions on a photosensitive array of a tracker camera from the reflected light; determining a correspondence between three spot positions on the photosensitive array and the coordinates of the targets; directing a beam of light from the tracker to the targets based at least in part on the coordinates of the first target and the first spot position; measuring 3-D coordinates of the targets with the tracker; determining 3-D coordinates of the at least one added point based at least in part on the measured 3-D coordinates of the targets and the coordinates of the at least one added point. | 07-03-2014 |
20140202016 | COORDINATE MEASUREMENT MACHINE WITH DISTANCE METER USED TO ESTABLISH FRAME OF REFERENCE - A portable articulated arm coordinate measuring machine includes a distance meter to measure 3D coordinates of at least three targets to establish a position and orientation of the articulated arm within a frame of reference established by the at least three targets. | 07-24-2014 |
20140259714 | SYSTEM AND METHOD OF ACQUIRING THREE DIMENSIONAL COORDINATES USING MULTIPLE COORDINATE MEASUREMENT DEVICES - A method is provided for determining the three dimensional coordinates of points on the surface of an object. The method includes providing a structured light scanner and a coordinate measurement device. The coordinate measurement device tracks the location and orientation of the structured light scanner during operation. The location and orientation data is combined with image frames captured by the scanner to allow registration of the image frames relative to each other. The three-dimensional coordinates of points on the surface of the object may then be determined in the frame of reference of the coordinate measurement device. | 09-18-2014 |
20140267619 | DIAGNOSING MULTIPATH INTERFERENCE AND ELIMINATING MULTIPATH INTERFERENCE IN 3D SCANNERS USING PROJECTION PATTERNS - A method for determining 3D coordinates of points on a surface of the object by providing a non-contact 3D measuring device having a projector and camera coupled to a processor, projecting a pattern onto the surface to determine a first set of 3D coordinates of points on the surface, determining susceptibility of the object to multipath interference by projecting and reflecting rays from the measured 3D coordinates of the points, selecting a pattern as a single line stripe or a single spot based on the susceptibility to multipath interference, and projecting the pattern onto the surface to determine a second set of 3D coordinates. | 09-18-2014 |
20140267620 | DIAGNOSING MULTIPATH INTERFERENCE AND ELIMINATING MULTIPATH INTERFERENCE IN 3D SCANNERS BY DIRECTED PROBING - A method for determining 3D coordinates of points on a surface of the object by providing a remote probe having a probe tip and a non-contact 3D measuring device having a projector and camera coupled to a processor, projecting a pattern onto the surface to determine a first set of 3D coordinates of points on the surface, determining susceptibility of the object to multipath interference by projecting and reflecting rays from the measured 3D coordinates of the points, projecting a first light to direct positioning of the remote probe by the user, the first light determined at least in part by the susceptibility to multipath interference, touching the probe tip to the surface at the indicated region, illuminating at least three spots of light on the remote probe, capturing an image of the at least three spots with the camera, and determining 3D coordinates of the probe tip. | 09-18-2014 |
20140267623 | Three-Dimensional Scanner With External Tactical Probe and Illuminated Guidance - An assembly that includes a projector and camera is used with a processor to determine three-dimensional (3D) coordinates of an object surface. The processor fits collected 3D coordinates to a mathematical representation provided for a shape of a surface feature. The processor fits the measured 3D coordinates to the shape and, if the goodness of fit is not acceptable, selects and performs at least one of: changing a pose of the assembly, changing an illumination level of the light source, changing a pattern of the transmitted With the changes in place, another scan is made to obtain 3D coordinates. | 09-18-2014 |
20140267629 | DIAGNOSING MULTIPATH INTERFERENCE AND ELIMINATING MULTIPATH INTERFERENCE IN 3D SCANNERS USING AUTOMATED REPOSITIONING - A method for determining 3D coordinates of points on a surface of the object by providing a 3D coordinate measurement device attached to a moveable apparatus that is coupled to a position sensing mechanism, all coupled to a processor, projecting a pattern of light onto the surface to determine a first set of 3D coordinates of points on the surface, determining susceptibility of the object to multipath interference by projecting and reflecting rays from the measured 3D coordinates of the points, moving the moveable apparatus under processor control to change the relative position of the device and the object, and projecting the a pattern of light onto the surface to determine a second set of 3D coordinates. | 09-18-2014 |
20140268093 | THREE-DIMENSIONAL COORDINATE SCANNER AND METHOD OF OPERATION - A noncontact optical three-dimensional measuring device that includes a projector, a first camera, and a second camera; a processor electrically coupled to the projector, the first camera and the second camera; and computer readable media which, when executed by the processor, causes the first digital signal to be collected at a first time and the second digital signal to be collected at a second time different than the first time and determines three-dimensional coordinates of a first point on the surface based at least in part on the first digital signal and the first distance and determines three-dimensional coordinates of a second point on the surface based at least in part on the second digital signal and the second distance. | 09-18-2014 |
20140268178 | SYSTEM AND METHOD OF ACQUIRING THREE DIMENSIONAL COORDINATES USING MULTIPLE COORDINATE MEASUREMENT DEVICES - A method is provided for determining the three dimensional coordinates of points on the surface of an object. The method includes providing a structured light scanner and a coordinate measurement device. The coordinate measurement device tracks the location and orientation of the structured light scanner during operation. The location and orientation data is combined with image frames captured by the scanner to allow registration of the image frames relative to each other. The three-dimensional coordinates of points on the surface of the object may then be determined in the frame of reference of the coordinate measurement device. | 09-18-2014 |
20140313521 | METHOD FOR CORRECTING A SPHERICALLY MOUNTED RETROREFLECTOR WHEN RESETTING A DISTANCE METER - A method of correcting centering errors of a spherically mounted retroreflector (SMR) when the distance meter of a 3D coordinate measurement device is reset to a home reference distance. | 10-23-2014 |
20140327920 | METHOD AND APPARATUS FOR USING GESTURES TO CONTROL A LASER TRACKER - A method and system are provided for controlling a laser tracker remotely from the laser tracker through gestures performed by a user. The method includes providing a rule of correspondence between each of a plurality of commands and each of a plurality of user gestures. A gesture is performed by the user with the user's body that corresponds to one of the plurality of user gestures. The gesture performed by the user is detected. The gesture recognition engine determines a first command from one of the plurality of commands that correspond with the detected gesture. Then the first command is executed with the laser tracker. | 11-06-2014 |
20140362424 | THREE-DIMENSIONAL SCANNER WITH DICHROIC BEAM SPLITTERS TO CAPTURE A VARIETY OF SIGNALS - In a device for optically scanning and measuring an environment, where the device is a laser scanner having a light emitter which, by a rotary mirror, emits an emission light beam, with a light receiver which receives a reception light beam, which, after passing the rotary mirror and a receiver lens which has an optical axis, is reflected from an object in the environment of the laser scanner. The laser scanner also includes a color camera which takes colored pictures of the environment of the laser scanner, and a control and evaluation unit which, for a multitude of measuring points, determines the distance to the object and links it with the colored pictures, the color camera being arranged on the optical axis of the receiver lens. | 12-11-2014 |
20150015700 | LASER TRACKER THAT COOPERATES WITH A REMOTE CAMERA BAR AND COORDINATE MEASUREMENT DEVICE - A system includes a laser tracker, a camera bar, an accessory, and an electrical system, the camera bar including a mounting structure, two cameras, and three non-collinear reflector points, the accessory including a plurality of light markers, the electrical system including a processor that causes the tracker to measure 3D coordinates of the three reflector points, to measure the light markers with the cameras, and to determine a position and orientation of the assembly in a tracker coordinate system. | 01-15-2015 |
20150015895 | THREE-DIMENSIONAL MEASUREMENT DEVICE HAVING THREE-DIMENSIONAL OVERVIEW CAMERA - A device for optically scanning and measuring an environment is provided. The device includes a first measurement device that emits a light beam in a direction to measure a distance to a remote target based at least in part on light reflected by the remote target. A three-dimensional camera coupled to a periphery of the first measurement device is configured to record an image of an object. A processor is operably coupled to the first measurement device and three-dimensional camera and is responsive to determine the three-dimensional coordinates of the measurement point based at least in part on the angles of rotation of the device and the distance. The processor further being responsive to determine the three-dimensional coordinates of a plurality of points on the object based at least in part on the angles of rotation of the device and the image. | 01-15-2015 |
20150022826 | TARGET APPARATUS AND METHOD - A target is provided having a retroreflector. A body is provided having a spherical exterior portion, the body containing a cavity. The cavity is sized to hold the retroreflector, the cavity open to the exterior of the body and having at least one surface opposite the opening, the retroreflector at least partially disposed in the cavity, wherein the retroreflector and at least one surface define a space therebetween. A transmitter is configured to emit an electromagnetic signal. A first actuator is configured to initiate emission of the electromagnetic signal, wherein the transmitter and the first actuator are affixed to the body. | 01-22-2015 |
20150043009 | LASER SCANNER HAVING A MULTI-COLOR LIGHT SOURCE AND REAL-TIME COLOR RECEIVER - A laser scanner includes a light emitter that generates a modulated light beam for measuring distance and red, blue, and green lights for capturing colors. The beam is collimated and directed to an object point with a steering mirror. Reflected light from the object point is directed by the steering mirror onto scanner optics. The reflected light is directed to an optical receiver that sends the first light in a first path and the second, third and fourth lights in a second path to a color receiver. The first light is demodulated to determine distance to the target. The second, third, and fourth lights are separated and measured to determine three color values. The color values are combined with the measured distance value to determine a color 3D coordinate for the object point. | 02-12-2015 |
20150049329 | METHOD AND APPARATUS FOR LOCKING ONTO A RETROREFLECTOR WITH A LASER TRACKER - A three-dimensional (3D) coordinate measurement system includes a communication device, a retroreflector, and a laser tracker. The communication device includes a first light source and an operator-controlled unit that controls emission from the first light source. The laser tracker includes a wide field-of-view (FOV) camera, a second light source, a narrow FOV camera next to the second light source, and a processor. The processor determines that a lock-in command has been given in response to the wide FOV camera capturing light emitted by the first light source. To lock onto the retroreflector, the processor captures with the narrow FOV camera light from the second light source reflected by the retroreflector and uses the image to lock onto the retroreflector with a beam of light from the tracker. It measures a distance and two angles with the tracker to get 3D coordinates of the retroreflector. | 02-19-2015 |
20150070712 | TARGET APPARATUS AND METHOD - A target includes a contact element having a region of spherical curvature, a retroreflector rigidly connected to the contact element, a transmitter configured to emit an electromagnetic signal, a temperature sensor disposed on the target, configured to measure an air temperature, and configured to send the measured air temperature to the transmitter. | 03-12-2015 |
20150075018 | COORDINATE MEASUREMENT MACHINE WITH DISTANCE METER AND CAMERA TO DETERMINE DIMENSIONS WITHIN CAMERA IMAGES - An articulated arm coordinate measurement machine (AACMM) that includes a noncontact 3D measurement device, position transducers, a camera, and a processor operable to project a spot of light to an object point, to measure first 3D coordinates of the object point based on readings of the noncontact 3D measurement device and the position transducers, to capture the spot of light with the camera in a camera image, and to attribute the first 3D coordinates to the spot of light in the camera image. | 03-19-2015 |