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Ackerson

D. Scott Ackerson, Easton, MD US

Patent application numberDescriptionPublished
20110001958LASER-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
20110007305LASER-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
20110007327LASER-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
20110170113LASER-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
20120099096LASER-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
20120099119LASER-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

D. Scott Ackerson, Windham, NH US

Patent application numberDescriptionPublished
20090324212MULTIPLE CHANNEL INTERFEROMETRIC SURFACE CONTOUR MEASUREMENT SYSTEM - Described is a multiple channel interferometric surface contour measurement system. The measurement system includes a multiple channel interferometer projector, a digital camera and a processor. The projector includes two or more interferometer channels. Each channel has an optical axis spatially separate from the optical axes of the other channels. Each channel projects a fringe pattern onto the surface of an object to be measured. Image data for the fringe patterns projected on the object surface are acquired by the digital camera. The processor controls the projection of the fringe patterns of different spatial frequencies, adjusts the phase of each fringe pattern and generates surface contour data in response to the camera image data. The multiple channel interferometric surface contour measurement system provides numerous advantages over conventional single channel interferometric systems, including reduced sensitivity to optical noise, improved stability and increased measurement accuracy.12-31-2009

Jessica Ackerson, Lansing, MI US

Patent application numberDescriptionPublished
20080229658HORTICULTURAL SUPPORT - A horticultural support includes an upper volute, a middle volute, and a lower volute wherein the upper volute, the lower volute, and the middle volute form a continuous circumvoluted support. Further, the upper volute is adapted to at least partially encircle a flower of a stemmed plant, and the lower volute is adapted to at least partially encircle a stem of the stemmed plant, such that when the support disposed on the stemmed plant, the flower is fixedly positioned with respect to the stem.09-25-2008

Kristin M. Ackerson, Colchester, VT US

Patent application numberDescriptionPublished
20120105692ANTI-BLOOMING PIXEL SENSOR CELL WITH ACTIVE NEUTRAL DENSITY FILTER, METHODS OF MANUFACTURE, AND DESIGN STRUCTURE - A method of preventing blooming in a pixel array includes affecting an amount of light that impinges on a photoelectric conversion element by adjusting a transmissivity of an electrochromic element based on an output of the photoelectric conversion element.05-03-2012

Lee Ackerson, Ben Lomond, CA US

Patent application numberDescriptionPublished
20110155311LAMINATED PAPER FOR XEROGRAPHY TO REDUCE COST AND RECYCLING WASTE - An imageable medium includes a reusable substrate and a removable surface layer semi-permanently bonded to a major surface of the substrate, the reusable substrate comprising an opaque backing to the removable surface layer and the removable surface layer comprising an imageable surface. A use indicator can be incorporated into the imageable medium, and correspond to at least one of the reusable substrate and removable surface layer. The use indicator can be an RFID chip. A method of imaging includes preparing an imageable medium by semi-permanently bonding an imageable layer to a reusable substrate, the reusable substrate providing an opaque backing to the imageable layer; imaging the imageable layer of the imageable medium; removing an imaged layer upon completion of use of the imaged medium; and repeatedly imaging a revealed imageable layer and removing the imaged layer.06-30-2011

Robert Scott Ackerson, Kansas City, MO US

Patent application numberDescriptionPublished
20120109685LINKING HEALTH RECORDS - Methods, systems, and computer storage media are provided for linking health records. A patient document may be received from a provider and confirmed by a patient to be linked to their health record. To confirm a document, a connection between a provider and a health record is established. Once the connection is initially established between the provider and the health record, subsequent patient documents received from the approved provider may be automatically linked to the health record. Connections may be established with multiple providers such that a single health record includes patient documents for multiple patient encounters with different providers.05-03-2012