Patent application number | Description | Published |
20080230806 | HBT and field effect transistor integration - Methods and systems for fabricating an integrated BiFET using two separate growth procedures are disclosed. Performance of the method fabricates the FET portion of the BIFET in a first fabrication environment. Performance of the method fabricates the HBT portion of the BiFET in a second fabrication environment. By separating the fabrication of the FET portion and the HBT portion in two or more separate reactors, the optimum device performance can be achieved for both devices. | 09-25-2008 |
20100237388 | HIGH ON-STATE BREAKDOWN HETEROJUNCTION BIPOLAR TRANSISTOR - A heterojunction bipolar transistor (HBT) is provided with an improved on-state breakdown voltage V | 09-23-2010 |
20110147799 | HIGH ON-STATE BREAKDOWN HETEROJUNCTION BIPOLAR TRANSISTOR - A heterojunction bipolar transistor (HBT) is provided with an improved on-state breakdown voltage V | 06-23-2011 |
20120088374 | HBT and Field Effect Transistor Integration - Methods and systems for fabricating an integrated BiFET using two separate growth procedures are disclosed. Performance of the method fabricates the FET portion of the BiFET in a first fabrication environment. Performance of the method fabricates the HBT portion of the BiFET in a second fabrication environment. By separating the fabrication of the FET portion and the HBT portion in two or more separate reactors, the optimum device performance can be achieved for both devices. | 04-12-2012 |
20130285440 | INTEGRATION OF HIGH-EFFICIENCY, LIGHTWEIGHT SOLAR SHEETS ONTO UNMANNED AERIAL VEHICLE FOR INCREASED ENDURANCE - Some embodiments include a kit for increasing endurance of a battery-powered unmanned aerial vehicle (UAV) by incorporating flexible solar cells or applying flexible solar cells on a surface of a UAV or on a surface of a component of a UAV. The kit further include a power conditioning system configured to operate the solar cells within a desired power range and configured to provide power having a voltage compatible with an electrical system of the UAV. | 10-31-2013 |
Patent application number | Description | Published |
20090124883 | AIRWAY BYPASS SITE SELECTION AND TREATMENT PLANNING - This invention relates to systems and methods for site selection and placement of extra-anatomic passages altering gaseous flow in a diseased lung. | 05-14-2009 |
20100305463 | AIRWAY BYPASS SITE SELECTION AND TREATMENT PLANNING - This invention relates to systems and methods for site selection and placement of extra-anatomic passages altering gaseous flow in a diseased lung. | 12-02-2010 |
20110065982 | SYSTEM AND METHOD FOR DETERMINING AIRWAY DIAMETER USING ENDOSCOPE - A method and system for use with an endoscopic instrument determines anatomical properties of body lumen at various states. Lumen properties such as lumen diameter are identified in two or more states corresponding to, for example, an inflated or deflated state. The lumen states are registered with one another and the anatomical properties are identified in real time at the location of an endoscope or endoscopic instrument used with the endoscope. In one embodiment a diametrical range of an airway is identified in real time at the location of a bronchoscope. | 03-17-2011 |
20120046928 | AUTOMATED FIDUCIAL MARKER PLANNING SYSTEM AND RELATED METHODS - A system and method are described for determining candidate fiducial marker locations in the vicinity of a lesion. Imaging information and data are input or received by the system and candidate marker locations are calculated and displayed to the physician. Additionally, interactive feedback may be provided to the physician for manually selected or identified sites. The physician may thus receive automatic real time feedback for a candidate fiducial marker location and adjust or accept a constellation of fiducial marker locations. 3D renderings of the airway tree, lesion, and marker constellations may be displayed. | 02-23-2012 |
20120288173 | SURGICAL ASSISTANCE PLANNING METHOD USING LUNG MOTION ANALYSIS - A medical analysis method for estimating a motion vector field of the magnitude and direction of local motion of lung tissue of a subject is described. In one embodiment a first 3D image data set of the lung and a second 3D image data set is obtained. The first and second 3D image data sets correspond to images obtained during inspiration and expiration respectively. A rigid registration is performed to align the 3D image data sets with one another. A deformable registration is performed to match the 3D image data sets with one another. A motion vector field of the magnitude and direction of local motion of lung tissue is estimated based on the deforming step. The motion vector field may be computed prior to treatment to assist with planning a treatment as well as subsequent to a treatment to gauge efficacy of a treatment. Results may be displayed to highlight. | 11-15-2012 |
20120289776 | METHODS AND DEVICES FOR DIAGNOSING, MONITORING, OR TREATING MEDICAL CONDITIONS THROUGH AN OPENING THROUGH AN AIRWAY WALL - Methods and devices for diagnosing, monitoring, and/or treating tissue through an opening or port through an airway wall are provided herein. | 11-15-2012 |
20120289825 | FLUOROSCOPY-BASED SURGICAL DEVICE TRACKING METHOD AND SYSTEM - A method and system for assisting a physician track a surgical device in a body organ of a subject during a procedure includes fluoroscopic based registration, tracking, and optimizing a fluoroscopy position. An initial registration step includes receiving a 3D image data of a subject in a first body position, receiving a real time fluoroscopy image data, and estimating a deformation model or field to match points in the real time fluoro image with a corresponding point in the 3D model. A tracking step includes computing the 3D location of the surgical device and displaying the surgical device and the 3D model of the body organ in a fused arrangement. Optimizing the fluoroscope camera pose includes computing a candidate camera pose to assist the surgeon to track a surgical device based on features of the surgical device, position of the patient, and mechanical properties or constraints of the fluoroscope. | 11-15-2012 |
20130346051 | AUTOMATED FIDUCIAL MARKER PLANNING METHOD - A system and method are described for determining candidate fiducial marker locations in the vicinity of a lesion. Imaging information and data are input or received by the system and candidate marker locations are calculated and displayed to the physician. Additionally, interactive feedback may be provided to the physician for manually selected or identified sites. The physician may thus receive automatic real time feedback for a candidate fiducial marker location and adjust or accept a constellation of fiducial marker locations. | 12-26-2013 |
20140221824 | SYSTEM AND METHOD FOR AUTOMATICALLY DETERMINING CALIBRATION PARAMETERS OF A FLUOROSCOPE - A method and system for estimating calibration parameters of a medical fluoroscope and more particularly a method and system which automatically determines intrinsic and distortion correction parameters of a fluoroscopy device. | 08-07-2014 |
20140222015 | METHODS AND DEVICES FOR DIAGNOSING, MONITORING, OR TREATING MEDICAL CONDITIONS THROUGH AN OPENING THROUGH AN AIRWAY WALL - Methods and devices for diagnosing, monitoring, and/or treating tissue through an opening or port through an airway wall are provided herein. | 08-07-2014 |
20140343348 | METHODS AND DEVICES FOR DIAGNOSING, MONITORING, OR TREATING MEDICAL CONDITIONS THROUGH AN OPENING THROUGH AN AIRWAY WALL - Methods and devices for diagnosing, monitoring, and/or treating tissue through an opening or port through an airway wall. A passageway is created extending from the airway to the target tissue. The passageway provides local access to the target tissue for treatment instruments and for delivering agents. | 11-20-2014 |