Patent application number | Description | Published |
20130046559 | SYSTEM AND METHOD FOR COMPUTING AND SCORING THE COMPLEXITY OF A VEHICLE TRIP USING GEO-SPATIAL INFORMATION - Systems and methods are disclosed herein for pricing an insurance premium based on route complexity. The system includes a computer memory and a processor in communication with the computer memory. The computer memory stores telematics data received from a sensor within a vehicle. The telematics data includes at least one of geo-position information of the vehicle and vehicle kinematics data. The processor is configured to compute a complexity score of the trip based on the telematics data. The processor is also configured to determine a price for automobile insurance for the driver based on the complexity score of the at least one trip. | 02-21-2013 |
20130304515 | SYSTEM AND METHOD FOR COMPUTING AND SORTING TRIP SIMILARITIES USING GEO-SPATIAL INFORMATION - Systems and methods are disclosed herein for pricing an insurance premium based on a vehicle trip similarity score. The system includes a computer memory and a processor in communication with the computer memory. The computer memory stores telematics data received from a sensor within a vehicle. The telematics data includes at least one of geo-position information of the vehicle and vehicle kinematics data. The processor is configured to compute a similarities score based on the telematics data. The processor is also configured to determine a price, price adjustment, or any other benefit for automobile insurance based on the similarities score. | 11-14-2013 |
20140019170 | SYSTEM AND METHOD FOR DETERMINING AN INSURANCE PREMIUM BASED ON COMPLEXITY OF A VEHICLE TRIP - Systems and methods are disclosed herein for pricing an insurance premium based on route complexity. The system includes a computer memory and a processor in communication with the computer memory. The computer memory stores telematics data received from a sensor within a vehicle. The telematics data includes at least one of geo-position information of the vehicle and vehicle kinematics data. The processor is configured to compute a complexity score of the trip based on the telematics data. The processor is also configured to determine a price for automobile insurance for the driver based on the complexity score of the at least one trip. | 01-16-2014 |
20140310027 | SYSTEM AND METHOD FOR COMPUTING TRIP SCORE USING GEO-SPATIAL INFORMATION - Systems and methods are disclosed herein for pricing an insurance premium based on a vehicle trip similarity score. The system includes a computer memory and a processor in communication with the computer memory. The computer memory stores telematics data received from a sensor within a vehicle. The telematics data includes at least one of geo-position information of the vehicle and vehicle kinematics data. The processor is configured to compute a similarities score based on the telematics data. The processor is also configured to determine a price, price adjustment, or any other benefit for automobile insurance based on the similarities score. | 10-16-2014 |
Patent application number | Description | Published |
20080275304 | Systems And Methods For Dynamic Optical Imaging - A medical system includes a catheter having an elongated tubular member and an inner core slideably received within the elongated member. The inner core includes an imager on a distal end and is coupled with a control system and an imaging system. The inner core is configured to scan the interior of a lumen by radially rotating around a center axis and axially translating along the center axis while within the elongated member. The medical system is configured to dynamically image a body lumen at a high speed in order to allow for optical imaging in a safe manner without long durations of blood sequestration and displacement. The medical system is configured to obtain three dimensional images of the body lumen with as little as one dimensional scanning of the lumen. Images of the lumen can be stored and viewed at a desired rate after scanning. | 11-06-2008 |
20090012367 | MEDICAL DEVICE WITH OLED ILLUMINATION LIGHT SOURCE - A medical device such as a catheter or endoscope device includes an illumination light source having one or more organic light-emitting diodes (OLEDs). The OLEDs are energized to produce illumination light that is received by an image sensor or camera to produce images of tissue within a patient's body. A heat conductive polymer conducts heat away from the illumination light source. | 01-08-2009 |
20090012404 | Electronically Scanned Optical Coherence Tomography With Frequency Modulated Signals - An improved Optical Coherence Domain Reflectometry (OCDR) system is provided. One embodiment of this OCDR system outputs a detector signal carrying image depth information on multiple modulation frequencies, where each modulation frequency corresponds to a different image depth. The image depth information from the detector signal may be resolved by tuning to the desired modulation frequency. Another system for imaging body tissue uses multiple frequency modulators such that the light beam does not travel from an optical fiber to free space. | 01-08-2009 |
20090253274 | DISPOSABLE NEEDLE ELECTRODE WITH IDENTIFICATION, AND ALTERABLE, CONNECTOR INTERFACE - An interconnect for connecting a needle electrode to a neurological testing device, the interconnect comprising:
| 10-08-2009 |
20110208041 | TRANSDUCER/SENSOR ASSEMBLY - An imaging transducer assembly is combined with a sensor of a medical positioning system, forming a transducer/sensor assembly. In one embodiment, the sensor includes a coil proximally coupled with the imaging transducer. A cable having first and second wires are proximally coupled to the coil. A non-conductive potting layer is wrapped around the coil. Traces are formed in the non-conductive potting layer that are used to electrically couple the imaging transducer with the first and second wires of the cable. | 08-25-2011 |
20110295072 | IMAGING ASSEMBLY WITH TRANSPARENT DISTAL CAP - An imaging assembly for use in a medical imaging device such as an endoscope or the like. In one embodiment, the imaging assembly includes a transparent distal cap that is shaped to receive an image sensor insert. The image sensor insert has a cooling channel that supplies a cooling liquid or gas to one or more illumination sources. | 12-01-2011 |
20120010466 | TRANSDUCER/SENSOR ASSEMBLY - An imaging transducer assembly is combined with a sensor of a medical positioning system, forming a transducer/sensor assembly. In one embodiment, the sensor includes a coil proximally coupled with the imaging transducer. A cable having first and second wires are proximally coupled to the coil. A non-conductive potting layer is wrapped around the coil. Traces are formed in the non-conductive potting layer that are used to electrically couple the imaging transducer with the first and second wires of the cable. | 01-12-2012 |
20130114789 | Dynamically Scanned X-Ray Detector Panel - An x-ray imaging system for imaging a subject includes an x-ray source configured to project an x-ray radiation toward a portion of the subject and a panel detector positioned opposite the x-ray source relative to the subject and configured to receive x-ray radiation passing through the subject. The panel detector includes a scintillating layer converting x-ray radiation to light rays of a selected spectrum and a plurality of microelectromechanical scanners. Each microelectromechanical scanner includes a photodetector mounted on a corresponding movable platform and configured to detect light in the selected light spectrum. The panel detector includes a scanning control module configured to move each platform in a selected scan pattern. | 05-09-2013 |
20140024947 | ELECTRONICALLY SCANNED OPTICAL COHERENCE TOMOGRAPHY WITH FREQUENCY MODULATED SIGNALS - An improved Optical Coherence Domain Reflectometry (OCDR) system is provided. One embodiment of this OCDR system outputs a detector signal carrying image depth information on multiple modulation frequencies, where each modulation frequency corresponds to a different image depth. The image depth information from the detector signal may be resolved by tuning to the desired modulation frequency. Another system for imaging body tissue uses multiple frequency modulators such that the light beam does not travel from an optical fiber to free space. | 01-23-2014 |