Patent application number | Description | Published |
20090022364 | MULTI-POSE FAC TRACKING USING MULTIPLE APPEARANCE MODELS - A system and method are provided for tracking a face moving through multiple frames of a video sequence. A predicted position of a face in a video frame is obtained. Similarity matching for both a color model and an edge model are performed to derive correlation values for each about the predicted position. The correlation values are then combined to determine a best position and scale match to track a face in the video. | 01-22-2009 |
20090046172 | Flare Monitoring - A computer assisted method identifies characteristics of a flare. A digital image of the flare is obtained, such as by a color digital video camera and a region of interest likely containing the flare is identified. Flare pixels within the region of interest are identified and color information is extracted from such flare pixels. The extracted color information is associated to characterizations of the flare, and an operator is provided an alert when such characterizations indicate an abnormal flare | 02-19-2009 |
20090309028 | Intelligent system and method to monitor object movement - Real time performance of a combustion process is evaluated by comparing sensor data with a template. Sensor data is derived from a passive infrared system and corresponds to specific heat capacity. Analysis of the real time performance can be used to control a parameter of the combustion process. | 12-17-2009 |
20100305885 | SYSTEM AND METHOD FOR DETECTING ADULTERATION OF FUEL OR OTHER MATERIAL USING WIRELESS MEASUREMENTS - A method includes transmitting wireless signals toward material in a tank. The method also includes receiving first return wireless signals reflected off a surface of the material and identifying a level of the material in the tank using the first return wireless signals. The method further includes receiving second return wireless signals reflected off a bottom of the tank and determining whether the material has been adulterated using the level of the material in the tank and the second return wireless signals. Determining whether the material has been adulterated could include determining a dielectric constant of the material, determining a density of the material using the dielectric constant of the material, and comparing the determined density of the material against a specified density. Determining the dielectric constant of the material could include using a time between peaks associated with the first and second return wireless signals. | 12-02-2010 |
20130070099 | IMAGE BASED DIAL GAUGE READING - A system and method include obtaining an image of an analog dial gauge. The image is processed to identify an endpoint of the gauge and a needle position in the image. A reading of the gauge is determined from the endpoint, the needle position, and information regarding the range of the gauge. | 03-21-2013 |
Patent application number | Description | Published |
20100086172 | METHOD AND APPARATUS FOR AUTOMATIC SEDIMENT OR SLUDGE DETECTION, MONITORING, AND INSPECTION IN OIL STORAGE AND OTHER FACILITIES - A method includes receiving an image of a storage tank at a processing system, where the storage tank is capable of storing one or more materials. The method also includes processing the image to identify a level, profile, or amount of sludge or sediment present in the storage tank. Processing the image could include segmenting the image into multiple segments and using the segments to identify a non-linearity in the image. The image could be segmented into segments having different grey levels using grey level values associated with previously-identified sediment or sludge. The identified level or amount of sludge or sediment could be used to automatically schedule maintenance for the storage tank. | 04-08-2010 |
20120069193 | THERMAL CAMERA CALIBRATION - A system for calibrating a thermal camera with a calibration target. The calibration target may have a pattern which can be seen on an infrared image captured by the camera. The pattern may be of various kinds. For example, the pattern may be a checkerboard with some, such as every other square, having one emissitivity and the remaining squares having a different emissitivity, or having infrared light sources placed at corners of the squares. A difference between the emmissitivities may be sufficient so that the checkerboard pattern appears in an infrared image captured by the camera for calibration. The calibration may aid in determining intrinsic and extrinsic parameters of the camera. The parameters may provide a basis for transforming camera pixel coordinates to a world coordinate system which allows measurement of real world entities by the thermal camera. Measurements may incorporate distances between objects, heights of objects, and so forth. | 03-22-2012 |
20120286948 | WIRELESS CONVEYOR BELT CONDITION MONITORING SYSTEM AND RELATED APPARATUS AND METHOD - A method includes transmitting first wireless signals towards a conveyor belt having multiple layers of material. The first wireless signals penetrate one or more layers in the conveyor belt. The method also includes receiving second wireless signals that have interacted with the conveyor belt. The method further includes identifying a condition of the conveyor belt using the second wireless signals and outputting an indicator identifying the condition of the conveyor belt. Identifying the condition of the conveyor belt could include identifying a thickness of at least one of the layers in the conveyor belt. This could be done by identifying pulses in the second wireless signals and using time of flight calculations. | 11-15-2012 |
20140368188 | SYSTEM AND METHOD FOR MEASURING VARYING PARAMETERS USING ADAPTIVE SIGNAL CONDITIONING - A method includes receiving a signal associated with one or more sensors. The method also includes examining one or more parameters of a signal conditioning circuit to determine whether clipping of the signal has occurred. The method further includes, upon a determination that clipping of the signal has occurred, decreasing a gain of the signal conditioning circuit. In addition, the method includes, upon a determination that clipping of the signal has not occurred, determining whether a cut-off frequency of the signal conditioning circuit is within a range of a frequency response of an object measured by the one or more sensors. The method can further include changing the cut-off frequency of the signal conditioning circuit and increasing a resistance or a capacitance of the signal conditioning circuit. | 12-18-2014 |