Steve T.
Steve T. Bakas, Trevose, PA US
Patent application number | Description | Published |
---|---|---|
20130126442 | METHODS FOR REMOVING CONTAMINANTS FROM WATER - A method for reducing inorganic contaminant levels during supercritical water oxidation (SCWO) is provided. The method utilizes a fluidized bed reactor wherein inorganic contaminants in the water precipitate out onto the catalyst. The clean water is reclaimed after oxidation of organic contaminants and reduction of inorganic contaminant levels. | 05-23-2013 |
Steve T. Barzee, University City, MO US
Patent application number | Description | Published |
---|---|---|
20120187630 | SHOOTING TARGET APPARATUS AND METHOD - The present invention is a shooting target achieving biodegradability comprised of sodium bentonite and dextrin. | 07-26-2012 |
Steve T. Kacenjar, Glenmoore, PA US
Patent application number | Description | Published |
---|---|---|
20130188878 | IMAGE ANALYSIS SYSTEMS HAVING IMAGE SHARPENING CAPABILITIES AND METHODS USING SAME - Described herein are image analysis systems that utilize a non-linear data processing algorithm for overlaying and comparing time sequence images. The image analysis system and method also sharpens at least one of the time sequence images during the process to improve image registration accuracy. | 07-25-2013 |
Steve T. Kondo, Malden, MA US
Patent application number | Description | Published |
---|---|---|
20140292208 | METHODS, SYSTEMS, AND APPARATUS FOR INTELLIGENT LIGHTING - An ambient light sensor measures an ambient light level at one point in an illuminated environment, such as a warehouse, office, shop, cold-storage facility, or industrial facility, and provides an indication of the measured ambient light level to a processor. The processor maps the measured ambient light level to an estimated ambient light level at a different point in the illuminated environment from the measured ambient light level (e.g., a “task height” about three feet from a warehouse floor). The processor may determine the difference between the estimated ambient light level and a desired light level at the task height, and may change the artificial illumination provided by a light fixture to make the actual ambient light level at task height match the desired light level at the task height. | 10-02-2014 |
Steve T. Kurachi, Austin, TX US
Patent application number | Description | Published |
---|---|---|
20100064572 | Animal trap - The animal trap includes an enclosure for containing a number of relatively large animals. An entry path (game trail, etc.) extends from the enclosure to an automated drop gate at the entrance, or may comprise the enclosure with a gate at each end. At least one double articulated trip arm is placed along the entry path. The trip arm does not actuate the gate when moved toward the enclosure, i.e., when animals pass through the entry path from the drop gate entrance to the enclosure. However, animals passing in the opposite direction move the trip arm(s) toward the gate, causing at least one trip arm to close a circuit and drop the gate to close the trap. The trap is thus configured to capture a number of herd animals, e.g., wild pigs, passing from the gate toward the enclosure, before one of the animals turns back and trips the gate. | 03-18-2010 |
Steve T. Pelote, Vista, CA US
Patent application number | Description | Published |
---|---|---|
20090220134 | METHOD OF MERGING ANATOMICAL DATA AND SURFACE DATA OF A PATIENT'S DENTITION - A method of obtaining and merging volumetric data and surface data of a patient's dentition for use in designing and/or manufacturing a prosthodontic component, such as a drill guide, an implant, or other prosthodontic appliance, for example. A plurality of radio-opaque markers are temporarily secured directly to a patient's dentition. Surface data is then obtained, such as by scanning the patient's dentition with the markers or alternatively, by taking an impression of the patient's dentition with the markers, forming a physical model that includes analogs of the markers, and scanning the physical model. Either before or after the surface data is obtained, an anatomical, volumetric image data set of the patient's dentition is obtained via a volumetric scan of the patient's dentition with the markers appearing in the image data set. The markers appearing in both the volumetric data set and the surface data set are used by suitable computer software to merge the volumetric and surface data sets to form a merged image data set and to generate a combined model of the patient's dentition from which a surgical drill guide or other prosthodontic appliance may be designed and manufactured. | 09-03-2009 |