Pulaski
Kerry Jon Pulaski, Gales Ferry, CT US
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20110011221 | Plasma Arc Cutting Torch, Oxygen-Fuel Gas Cutting Torch, Waterjet or Laser Cutting Torch, Pierce Height three or more Multi-Step Transition Height Process control for more than an initial pierce height and set cut height setting - The three or more multi-step material piercing cutting process sequence is to prolong the life of the cutting tool consumables and tool itself, lower cost of the operation to the machine user and reduce damage and loss of the material being cut with Plasma Arc cutting torches, Oxygen-Fuel Gas Cutting Torches, Water Jet Cutting Heads and Laser Cutting Heads. This process controlled by dedicated hardware or software or both, including external CNC machine or P.C. controllers, will provide unlimited cutting tool process height distance steps and the delay timing between each successive step to the work being cut before usual existing process control takes over the cut process. This process includes any control signal communication of these function from any analog, digital, wireless or fiberoptic to the equipment used for motion control of this process. | 01-20-2011 |
Kirt William Pulaski, Suwanee, GA US
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20140141861 | System for Implementing Internet-Based Games with a Core Platform, Game Modules, and Protected Game Outcome Generator - An internet gaming system includes a core platform, and a vertical extension functionality configured with the core platform and having a first application programming interface. A plurality of game specific modules are provided with a hardware and software configuration to conduct different respective Internet-based games with players via an Internet lottery site, with each game specific module including a dedicated second application programming interface. Input/output data between the core platform and the game specific modules occurs only through the first and second application programming interfaces. A secure game outcome generator has a hardware and software configuration to determine a game outcome for each game played via the system and is linked to the core platform via a secure interface with the vertical extension. | 05-22-2014 |
Paul Pulaski, Albuquerque, NM US
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20090185132 | SYSTEMS AND METHODS OF PHASE DIVERSITY WAVEFRONT SENSING - A phase diversity wavefront sensor includes an optical system including at least one optical element for receiving a light beam; a diffractive optical element having a diffractive pattern defining a filter function, the diffractive optical element being arranged to produce, in conjunction with the optical system, images from the light beam associated with at least two diffraction orders; and a detector for detecting the images and outputting image data corresponding to the detected images. In one embodiment, the optical system, diffractive optical element, and detector are arranged to provide telecentric, pupil plane images of the light beam. A processor receives the image data from the detector, and executes a Gerchberg-Saxton phase retrieval algorithm to measure the wavefront of the light beam. | 07-23-2009 |
20120293769 | SYSTEMS AND METHODS OF PHASE DIVERSITY WAVEFRONT SENSING - A phase diversity wavefront sensor includes an optical system including at least one optical element for receiving a light beam; a diffractive optical element having a diffractive pattern defining a filter function, the diffractive optical element being arranged to produce, in conjunction with the optical system, images from the light beam associated with at least two diffraction orders; and a detector for detecting the images and outputting image data corresponding to the detected images. In one embodiment, the optical system, diffractive optical element, and detector are arranged to provide telecentric, pupil plane images of the light beam. A processor receives the image data from the detector, and executes a Gerchberg-Saxton phase retrieval algorithm to measure the wavefront of the light beam. | 11-22-2012 |
Paul D. Pulaski, Albuquerque, NM US
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20150131053 | MODEL EYE PRODUCING A SPECKLE PATTERN HAVING A REDUCED BRIGHT-TO-DARK RATIO FOR USE WITH OPTICAL MEASUREMENT SYSTEM FOR CATARACT DIAGNOSTICS - A system includes a model eye and an optical measurement instrument, which includes: a corneal topography subsystem; a wavefront sensor subsystem; and an eye structure imaging subsystem. The subsystems may have a common fixation axis, and be operatively coupled to each other via a controller. The optical measurement instrument may perform measurements of the model eye to verify correct operation of the optical measurement instrument for measuring one or more characteristics of a subject's eye. The model eye may include an optically transmissive structure having a front curved surface and an opposite rear planar surface, and a material structure provided at the rear planar surface of the optically transmissive structure and having a characteristic to cause a speckle pattern of a portion of a coherent light beam that is directed back out the front curved surface of the optically transmissive structure to have a bright-to-dark ratio of less than 2:1. | 05-14-2015 |