Stephan T.
Stephan T. Habermeyer, Brookline, MA US
Patent application number | Description | Published |
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20100274579 | Dynamic, Interactive, Web-Based Treatment System - A treatment system and method includes a treatment system server having a building block module to generate modular, interactive building blocks for treatment regimens. The building blocks represent a time-sensitive aspect of the treatment regimen, and are selectively assembled by a care provider client computer in substantially any combination, to form a customized treatment regimen. An assembly module transforms the building blocks into entries on a calendar viewable on a patient client computer. A transformation module transforms the patient input data into a display of patient progress. The treatment system server permits selective access to the treatment program by client computers. A webserver hosts a website to enable client computers to access the treatment system server. A treatment plan database server stores the assembled treatment plans. A communications server provides secure communications between care provider client computers and patient client computers, and between the webserver and a patient record database. | 10-28-2010 |
Stephan T. Lavavej, Redmond, WA US
Patent application number | Description | Published |
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20130019254 | ENABLING FAST STRING ACQUISITION IN AN OPERATING SYSTEM FOR EFFICIENT INTEROPERATIONS WITH VARIOUS LANGUAGE PROJECTIONSAANM Kuhn; BenjaminAACI BellevueAAST WAAACO USAAGP Kuhn; Benjamin Bellevue WA USAANM Lavavej; Stephan T.AACI RedmondAAST WAAACO USAAGP Lavavej; Stephan T. Redmond WA USAANM Zeng; WeiAACI SammamishAAST WAAACO USAAGP Zeng; Wei Sammamish WA US - In one embodiment, a memory resource manager may pass data memory structures between application components on a computing device. A memory resource | 01-17-2013 |
Stephan T. Toepper, Hickory, NC US
Patent application number | Description | Published |
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20140332510 | COATING REMOVAL SYSTEMS FOR OPTICAL FIBERS - Coating removal systems for optical fibers are disclosed. Related methods and optical fibers processed with these methods and coating removal systems are also disclosed. An optical fiber includes a glass fiber, having a cladding and core, surrounded by a protective coating which does not contribute to the optical performance of the optical fiber. By removing the coating at an end portion of the optical fiber, the end portion may be precisely positioned and secured to enable reliable optical communications. A laser beam may be directed at the protective coating to remove the protective coating by one or more ablating, melting, vaporizing, and/or thermal decomposing processes. The optical fiber may also be optionally cleaved. In this manner, the coating may be efficiently removed while retaining at least fifty percent of the tensile strength of the optical fiber. | 11-13-2014 |