Patent application number | Description | Published |
20080296174 | System and Method for Improving Accuracy of a Gas Sensor - An electrochemical gas sensor and methods of operating an electrochemical gas sensor are disclosed. In one embodiment, an electrochemical gas sensor comprising a measuring electrode pair configured to measure a gas species and a pumping electrode pair configured to reduce an amount of an interfering species in a sample in the electrochemical gas sensor is operated by obtaining a measurement of the interfering species at a location spatially adjacent to a measuring electrode of the measuring electrode pair, and adjusting one or more of an operation or an output processing of the electrochemical gas sensor based on the measurement of the interfering species. | 12-04-2008 |
20100241340 | CALIBRATION SCHEME FOR AN EXHAUST GAS SENSOR - Various systems and methods are described for controlling an engine in a vehicle in response to an equilibrium value of an exhaust gas constituent generated from an exhaust gas sensor. One example method comprises during engine fueling below a threshold amount where at least one intake valve and one exhaust valve of the engine are operating: generating an equilibrium value of an exhaust gas constituent reading of the exhaust gas sensor, the equilibrium value based on a trajectory of the exhaust gas constituent reading, and under selected engine combusting conditions, adjusting the sensor signal based on the equilibrium value. | 09-23-2010 |
20110010035 | SMART VEHICLE SENSOR - Various systems and methods are described for controlling operation of a motor vehicle based on a sensor. One example method comprises receiving sensed parameter data from the sensor, receiving calibration data from the sensor, and adjusting a vehicle operating parameter in response to the sensed parameter data and the calibration data. | 01-13-2011 |
20120029793 | CALIBRATION SCHEME FOR AN EXHAUST GAS SENSOR - Various systems and methods are described for controlling an engine in a vehicle in response to an equilibrium value of an exhaust gas constituent generated from an exhaust gas sensor. One example method comprises during engine fueling below a threshold amount where at least one intake valve and one exhaust valve of the engine are operating: generating an equilibrium value of an exhaust gas constituent reading of the exhaust gas sensor, the equilibrium value based on a trajectory of the exhaust gas constituent reading, and under selected engine combusting conditions, adjusting the sensor signal based on the equilibrium value. | 02-02-2012 |
20120180461 | Reductant Storage Sensing System and Method - A catalyst supported on a substrate includes a heater embedded in a sub-region of the substrate to heat a local region of the catalyst. The amount of ammonia stored on the catalyst may be determined and controlled through conductivity measurements in the locally heated portion of the system described. | 07-19-2012 |
20130131958 | SMART VEHICLE SENSOR - Various systems and methods are described for controlling operation of a motor vehicle based on a sensor. One example method comprises receiving sensed parameter data from the sensor, receiving calibration data from the sensor, and adjusting a vehicle operating parameter in response to the sensed parameter data and the calibration data. | 05-23-2013 |
Patent application number | Description | Published |
20090217808 | AUTOMATED LAUNCH MATING SYSTEM - In one embodiment, an automated system for mating a launch device to a launch platform may include a launch platform having a first electrical connector, and a interface member attached to the launch device. The interface member may include a second electrical connector configured to automatically couple to the first electrical connector of the launch platform. | 09-03-2009 |
20090308237 | SYSTEM AND METHOD FOR PREPARING A LAUNCH DEVICE - A launch device may be prepared for launch. The launch device may be assembled in a horizontal position on a mobile device. A lifting device attached to the mobile device may be coupled to the launch device. The launch device may be moved to a launch site using the mobile device. The launch device may be moved to a vertical position at the launch site using the lifting device. The launch device may be launched. | 12-17-2009 |
20100049383 | AUTONOMOUS ASSET TRANSPORTATION METHOD, APPARATUS AND COMPUTER PROGRAM PRODUCT - A method, computer apparatus and computer program product are provided for autonomously transporting an asset along a track to a destination in a manner that is safe, reliable and quick. In regards to the method, instructions are received relating to the shipment of the asset to the destination. Based upon the instructions, a track-based route along which the asset is to be transported to the destination is then automatically determined. In order to automatically determine the track-based route, the integrity of the track and/or the track bed may be determined. When determined necessary in order to transport the asset to the destination, the track may be automatically reconfigured, such as by closing or opening appropriate switches. Further, the movement of the asset may be controlled in an autonomous manner along the track while continuing to monitor at least that portion of the track between the asset and the destination. | 02-25-2010 |
20100050855 | AUTOMATIC CONNECTOR SYSTEM - An apparatus comprising a housing having an opening, a connector unit, a moveable door, and a biasing system. The connector unit is located inside the housing. The connector unit is capable of providing an electrical connection to a complementary connector unit. The moveable door is capable of being moved into an open position and a closed position, wherein the closed position covers the opening. The biasing system is capable of aligning the connector unit with the complementary connector unit and causing the connector unit to engage the complimentary connector unit. | 03-04-2010 |
20100091108 | SYSTEM FOR CHECKING SECURITY OF VIDEO SURVEILLANCE OF AN AREA - A system for checking security of video surveillance of an area by a plurality of video units includes: (a) a respective signaling unit coupled with each of a respective signaling-equipped video unit among the plurality of video units; and (b) a control unit coupled with each respective video unit of the plurality of video units; the control unit providing an encoding arrangement for use by each respective signaling unit for emitting a predetermined signal. Each respective signaling-equipped video unit is oriented to permit at least one other video unit of the plurality of video units to receive the predetermined signal. The control unit cooperates with the plurality of video units to evaluate received the predetermined signals to effect the checking. | 04-15-2010 |