Euteneuer
Charles Euteneuer, St. Michael, MN US
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20110184508 | IMPROVED TISSUE SUPPORTING DEVICES - A new multiple component stent arrangement which allows for initial self-expansion and subsequent deformation to a final enlarged size. | 07-28-2011 |
Charles E. Euteneuer, St. Michael, MN US
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20140188161 | METHODS AND APPARATUS FOR FIXING SHEET-LIKE MATERIALS TO A TARGET TISSUE - A staple for attaching a sheet-like implant to tissue or bone may include first and second arms, and first and second flukes. In some embodiments, the first arm has a proximal end and a distal end, and the second arm has a proximal end and a distal end. A bridge extends from the proximal end of the first arm to the proximal end of the second arm. The first fluke has a proximal end abutting the distal end of the first arm, and the first fluke extends distally from the first arm. The first fluke has a lateral extent larger than a lateral extent of the first arm and is mounted eccentrically thereto. The first fluke includes a proximal surface projecting at an outward angle in a proximal direction away from the distal end of the first arm to engage the tissue or bone when inserted therein. The second fluke has similar features. This arrangement causes the first and second flukes to rotate in response to a pullout force on the bridge. Methods for attaching a sheet-like implant to a target tissue are also disclosed. | 07-03-2014 |
Charles L. Euteneuer, Plymouth, MN US
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20090082860 | Ocular Implants with Asymmetric Flexibility - An ocular implant having a body extending along a generally curved longitudinal axis, the curved longitudinal axis defining a first plane, the body having a diameter of between 0.005 inches and 0.04 inches and being adapted to be disposed within a canal of Schlemm in a human subject's eye; wherein the body has a first flexibility when bent along the first plane and a second flexibility different from the first flexibility when bent along a second plane that intersects the first plane and is not coincident with the first plane. Another aspect of the invention provides a method of treating a human eye, including the steps of: inserting an implant into Schlemm's canal of a human eye, the implant having a first flexibility when bent along a first plane and a second flexibility different from the first flexibility when bent along a second plane that intersects the first plane and is not coincident with the first plane; and supporting tissue forming Schlemm's canal with the implant. | 03-26-2009 |
20090082862 | Ocular Implant Architectures - An ocular implant having a first spine; a second spine; a first strut extending in an axial direction Z between the first spine and the second spine; a second strut extending in an axial direction Z between the first spine and the second spine; wherein an angular dimension θ of a first edge of each strut undulates as the strut extends in the axial direction Z between the first spine and the second spine; and wherein a radius r of an outer surface of each strut remains substantially constant as the strut extends the axial direction Z between the first spine and the second spine. | 03-26-2009 |
20120136439 | Ocular Implant Architectures - An ocular implant having a first spine; a second spine; a first strut extending in an axial direction Z between the first spine and the second spine; a second strut extending in an axial direction Z between the first spine and the second spine; wherein an angular dimension θ of a first edge of each strut undulates as the strut extends in the axial direction Z between the first spine and the second spine; and wherein a radius r of an outer surface of each strut remains substantially constant as the strut extends the axial direction Z between the first spine and the second spine. | 05-31-2012 |
Charles L. Euteneuer, Saint Michael, MN US
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20130060317 | STENT DELIVERY SYSTEM HAVING STENT SECUREMENT APPARATUS - Medical devices and methods for making and using medical devices are disclosed. An example medical device may include an elongate shaft including a first tubular member and a second tubular member. A balloon may be coupled to the shaft. A first member may be coupled to the first tubular member and positioned within the balloon. A second member may be coupled to the first tubular member and positioned within the balloon. A medical implant may be coupled to the shaft and positioned adjacent to the balloon. | 03-07-2013 |
20140222128 | STENT DELIVERY SYSTEM HAVING STENT SECUREMENT APPARATUS - A system/assembly for delivery and deployment of an inflation expandable stent within a vessel, comprising a catheter having proximal and distal ends; a stent, inflation expandable from a delivery diameter to a deployment diameter, such that the delivery diameter is reduced from the deployment diameter for conforming the stent to the catheter, such that the stent, in its delivery diameter, is coaxially mounted on the catheter near the catheter distal end; an expandable inflation means coaxially mounted on the catheter axially within the stent, for expansion of the stent from the delivery diameter to the deployment diameter upon application of fluid deployment pressure to the inflation means; and a securement component coaxially mounted on the catheter, axially within the expandable inflation means, the securement component designed and adapted to provide a securement pressure to the stent in the delivery diameter to maintain the stent in position on the catheter during delivery to the deployment site. | 08-07-2014 |
Eric Euteneuer, Minneapolis, MN US
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20140118181 | TCAS BEARING ESTIMATION WITH REDUCED ANTENNA ELEMENTS - Systems and methods for calculating coherent bearing that allow one to reduce the number of TCAS antenna elements. In one embodiment, the bearing calculation takes into account signal-to-noise ratio (SNR) difference experienced from top and bottom antennas mounted on a vehicle. | 05-01-2014 |
Eric Euteneuer, St. Anthony Village, MN US
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20140249738 | SYSTEMS AND METHODS FOR UNMANNED AIRCRAFT SYSTEM COLLISION AVOIDANCE - Systems and methods are operable maintain a proscribed Self Separation distance between an unmanned aircraft system (UAS) and an object. In an example system, consecutive intruder aircraft locations relative to corresponding locations of a self aircraft are determined, wherein the determining is based on current velocities of the intruder aircraft and the self aircraft, and wherein the determining is based on current flight paths of the intruder aircraft and the self aircraft. At least one evasive maneuver for the self aircraft is computed using a processing system based on the determined consecutive intruder aircraft locations relative to the corresponding locations of the self aircraft. | 09-04-2014 |
Eric A. Euteneuer, St. Anthony Village, MN US
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20160033276 | MERGING INTENSITIES IN A PHD FILTER BASED ON A SENSOR TRACK ID - In one embodiment, a method of tracking multiple objects with a probabilistic hypothesis density filter is provided. The method includes generating a first intensity by combining a first one or more measurements, wherein a first set of track IDs associated with the first intensity includes track IDs corresponding to respective measurements in the first one or more measurements. A second intensity is generated by combining a second one or more measurements, wherein a second set of track IDs associated with the second intensity includes track IDs corresponding to respective measurements in the second one or more measurements. The first set of track IDs is compared to the second set of track IDs, and the first intensity is selectively merged with the second intensity based on whether any track IDs in the first set of track IDs match any track IDs in the second set of track IDs. | 02-04-2016 |
20160033281 | UPDATING INTENSITIES IN A PHD FILTER BASED ON A SENSOR TRACK ID - In one embodiment, a method of tracking multiple objects with a probabilistic hypothesis density filter is provided. The method includes obtaining measurements corresponding to a first object with at least one sensor, the at least one sensor providing one or more first track IDs for the measurements. A T | 02-04-2016 |
20160033282 | TWO STEP PRUNING IN A PHD FILTER - In one embodiment, a method of tracking multiple objects with a probabilistic hypothesis density filter is provided. The method includes providing a plurality of intensities. The plurality of intensities are pruned based on their respective weight to remove lower weighted intensities and produce a first set of intensities. Intensities in the first set of intensities that are identified as corresponding to the same object are then merged to produce a second set of intensities. The second set of intensities is then pruned again to produce a final set of intensities, wherein pruning the second set of intensities includes in the final set of intensities, up to a threshold number of intensities having the largest weights in the second set of intensities and excludes from the final set of intensities any remaining intensities in the second set of intensities. | 02-04-2016 |
20160033633 | ADJUSTING WEIGHT OF INTENSITY IN A PHD FILTER BASED ON SENSOR TRACK ID - In one embodiment, a method for tracking multiple objects with a probabilistic hypothesis density filter is provided. The method includes comparing second track IDs corresponding to newly obtained measurements to one or more first track IDs corresponding to a T | 02-04-2016 |
Eric A. Euteneuer, Minneapolis, MN US
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20100250138 | METHODS AND SYSTEMS OF DETERMINING BEARING WHEN ADS-B DATA IS UNAVAILABLE - System, method and computer program product for determining bearing using ADS-B and TCAS standard reply bearing estimates are disclosed. In one embodiment, a method for determining bearing based upon ADS-B signals includes receiving ADS-B signals and standard transponder reply signals. A first bearing estimate is based on the ADS-B signal. A second bearing estimate is based on the standard transponder reply signals. A database is developed according to the first and second bearing estimates via the ADS-B and standard transponder reply signals. In one embodiment, where ADS-B signals are unavailable, associated ADS-B signals associated with the standard transponder reply previously stored in the database are used to determine bearing. | 09-30-2010 |
Patrick Euteneuer, Melle DE
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20100307058 | Light barrier housing, light barrier element and door devices - A light barrier housing is provided in a light barrier for monitoring an automatically driven architectural closure. In order to reduce mounting work, a cable connection having at least one clamped connection is provided. | 12-09-2010 |
Peter Euteneuer, Lahnau DE
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20090195867 | INVERTED MICROSCOPE - An inverted microscope for the high-contrast imaging of objects includes multiple objectives configured to be disposable in an imaging beam path. Each objective has a respective objective pupil associated therewith. A lens system is also provided for generating respective intermediate images of the respective objective pupils. A modulator disposing device, which includes a plurality of modulators, is configured to dispose the modulators at predetermined respective locations on an optical axis corresponding to the locations of the respective intermediate images of the respective objective pupils so as to contrast an object image. | 08-06-2009 |
20130094016 | METHOD AND APPARATUS FOR IDENTIFYING AND CORRECTING SPHERICAL ABERRATIONS IN A MICROSCOPE IMAGING BEAM PATH - A method and apparatus provide identification of a spherical error of a microscope imaging beam path in a context of microscopic imaging of a sample using a microscope having an objective. A coverslip that carries or covers the sample is arranged in the imaging beam path. A measurement beam is guided through the objective onto the sample in a decentered fashion that is outside an optical axis of the objective. The measurement beam is reflected at an interface of the coverslip with the sample and the reflected measurement beam is guided through the objective onto a detector. An intensity profile of the reflected measurement beam is detected with the detector and a presence of a spherical error from the intensity profile is determined qualitatively and/or quantitatively. | 04-18-2013 |