Arturo E.
Arturo E. Altamirano, Fresno, TX US
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20100259405 | Real Time Radioactive Training - A method of and a system for tracking radioactive sources includes at least one RFID tag attached to a radioactive source shield, the shield receiving a radioactive source at a base location, and a TRX-Gamma box for detecting identification information from the RFID tag and sensing a first gamma radiation count from the radioactive source shield. The identification information and the first gamma radiation count are stored and the shield with the radioactive source is transported to a job location where the radioactive source is removed from the shield. At the job location, a check is made that the radioactive source has been returned to the shield by comparing any newly detected identification information with the stored identification information, and by comparing a sensed second gamma radiation count with the first gamma radiation count. | 10-14-2010 |
20130290064 | Managing A Workflow For An Oilfield Operation - Various implementations described herein are directed to a method for managing a workflow for an oilfield operation. The method may include receiving a request to perform the task workflow. The method may also include loading an adapted task workflow based on historical information. The method may further include receiving an input pertaining to one or more tasks of the adapted task workflow. In addition, the method may include determining whether the one or more tasks have been completed based on the received input. | 10-31-2013 |
20130290066 | Managing A Workflow For An Oilfield Operation - Various implementations described herein are directed to a method for managing a workflow for an oilfield operation. In one implementation, the method may include receiving a request for approval of one or more tasks of the task workflow. The method may also include generating the request for approval, where the request for approval includes a hyperlink to a most current status of the one or more tasks of the task workflow. | 10-31-2013 |
Arturo E. Bendek, Jr., Miami, FL US
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20090021214 | Portable electronic device carrier with charging system - A portable electronic device carrier includes a charging system. The carrier is configured to at least partially house a portable electronic device such as a cell phone, PDA or the like. The carrier may comprise a pouch or have other configurations. The charging system comprises at least one photovoltaic cell configured to convert light into electricity, and at least one charging port configured to be engaged by a portable electronic device, the charging port configured to provide power to the portable electronic device when the portable electronic device is engaged therewith. The charging system may include at least one battery configured to be charged by the electricity generated by the at least one photovoltaic cell. The charging port may comprise contacts which are engaged by an interface of the portable electronic device. In accordance with the invention, a portable electronic device is charged using a portable charging system associated with a carrier for the device. | 01-22-2009 |
20090023481 | Portable electronic device carrier with charging system - A portable electronic device carrier includes a charging system. The carrier is configured to at least partially house a portable electronic device such as a cell phone, PDA or the like. The carrier may comprise a pouch or have other configurations. The charging system comprises at least one battery. The battery may be configured to be charged by an external source via at least one external port or connector, or a source associated with the carrier, such as at least one photovoltaic cell. The charging port may comprise contacts which are engaged by an interface of the portable electronic device. In accordance with the invention, a portable electronic device is charged using a portable charging system associated with a carrier for the device. | 01-22-2009 |
Arturo E. Mancilla, San Francisco, CA US
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20110070948 | MODULAR WAGERING GAME MACHINE SIGNAGE - Modular wagering game machine signage is described herein. In some embodiments, a modular wagering game machine sign can include a center module including a plurality of support members, at least one outer panel covering the frame, and a lighted faceplate including lighting units. The lighting units can include light emitting diodes (LEDs) and globes. The sign can also includes at least one side module connected to the center module via hand-spinning latches configured to press against one or more of the center module s support members. | 03-24-2011 |
20120283012 | Signage Display for an Electronic Gaming Terminal - Gaming terminals, gaming systems, signage displays, and supporting structures therefore are presented herein. A gaming terminal for playing a wagering game is disclosed. The gaming terminal includes a base cabinet, an input device for receiving wagers to play the wagering game, and a terminal display for displaying information related to the wagering game. A supporting structure for supporting a signage display immediately above the base cabinet of the gaming terminal is disclosed. The supporting structure and the signage display are each free of any physical attachment to the gaming terminal. The signage display houses a display device for displaying information related to the wagering game. The supporting structure can optionally incorporate a universal mounting apparatus for removably attaching the signage display to the supporting structure, and provide for rapidly re-arranging the signage displays associated with various gaming terminals. | 11-08-2012 |
Arturo E. Romero, Jr., Sugar Land, TX US
Patent application number | Description | Published |
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20120253681 | SYSTEM AND METHOD FOR PROCESSING SEISMIC DATA - A computer-implemented method for processing seismic data includes the determining, from the seismic data, a first amplitude attribute map at a first image depth corresponding to a shallow attenuating body, and a second amplitude attribute map at a second image or target depth. The first and second amplitude attribute maps are then normalized, and a ratio map is determined based on a ratio of the normalized first and second amplitude attribute maps. The ratio map is scaled to yield a scale factor map, which is then applied to the seismic data to compensate for effects of shallow overburden attenuation. | 10-04-2012 |