Patent application number | Description | Published |
20090106347 | METHODS AND SYSTEMS FOR PROVIDING ACCESS, FROM WITHIN A VIRTUAL WORLD, TO AN EXTERNAL RESOURCE - In a method for providing access to resources, a virtual world application executing on a first server transmits, to a client, data representative of at least one virtual world object. The virtual world application receives, from the client, a request to access a resource executed on a second server. The virtual world application requests access to the requested resource and, in response, receives output data generated by the resource. The virtual world application transmits, to the client, the received output data and data representative of a second virtual world object. In some aspects, the virtual world application receives a request to render, on a virtual world object, output data generated by a resource executed on the client. An agent intercepts the output data generated by the resource executed on the client. A virtual world client applies the intercepted output data as a texture to a virtual world object. | 04-23-2009 |
20120117490 | METHODS AND SYSTEMS FOR PROVIDING ACCESS, FROM WITHIN A VIRTUAL WORLD, TO AN EXTERNAL RESOURCE - In a method for providing access to resources, a virtual world application executing on a first server transmits, to a client, data representative of at least one virtual world object. The virtual world application receives, from the client, a request to access a resource executed on a second server. The virtual world application requests access to the requested resource and, in response, receives output data generated by the resource. The virtual world application transmits, to the client, the received output data and data representative of a second virtual world object. In some aspects, the virtual world application receives a request to render, on a virtual world object, output data generated by a resource executed on the client. An agent intercepts the output data generated by the resource executed on the client. A virtual world client applies the intercepted output data as a texture to a virtual world object. | 05-10-2012 |
Patent application number | Description | Published |
20120164673 | PTP1B INHIBITORS - Described herein are agents, including antibodies, antibody fragments, polypeptides and organic small molecules, that bind reversibly inactive PTP1B (designated herein in the alternative as PTP1B-SN or PTP1B-OX) and stabilize it (stabilize PTP1B-OX) in such a manner that they inhibit reactivation of reversibly oxidized, inactive PTP1B by reduction (by reducing agent) and have no substantial direct inhibitory effect on phosphatase activity/PTP1B activity (for example, as detectable in assays in vitro). | 06-28-2012 |
20130029366 | PTP1B INHIBITORS - Described herein are agents, including antibodies, antibody fragments, polypeptides and organic small molecules, that bind reversibly inactive PTP1B (designated herein in the alternative as PTP1B-SN or PTP1B-OX) and stabilize it (stabilize PTP1B-OX) in such a manner that they inhibit reactivation of reversibly oxidized, inactive PTP1B by reduction (by reducing agent) and have no substantial direct inhibitory effect on phosphatase activity/PTP1B activity (for example, as detectable in assays in vitro). | 01-31-2013 |
Patent application number | Description | Published |
20090014327 | Analyte Test Sensor and Method of Manufacturing the Same - An analyte test sensor for use in measuring the concentration of a particular analyte in a test sample includes a non-conductive substrate, a reference electrode deposited on the substrate, a working electrode deposited on the substrate and a compensation electrode deposited on the substrate. The compensation electrode is provided with a resistive ladder and is designed to correct for test result inaccuracies which are the result of variances in the manufacturing of the test sensor. Specifically, in one embodiment, the compensation electrode corrects for test result inaccuracies in an analog manner by shunting a portion of the working current away from working electrode. In another embodiment, the compensation electrode corrects for test result inaccuracies in a digital manner by providing a calibration code which is proportional its resistance value. A batch of analyte test sensors are preferably manufactured in the following manner. An initial batch of the test sensors is constructed. Then, a limited sampling of the sensors is tested for accuracy using a control sample. Based on the test results, the resistance value of the compensation electrode for each remaining sensor in the batch is adjusted accordingly. | 01-15-2009 |
20100206750 | Rapid Analyte Measurement Assay - The present the invention provides methods, devices and systems for rapidly measuring analytes within a biological sample. | 08-19-2010 |
20130002278 | Methods and Devices for Determining Sensing Device Usability - Methods and devices for determining sensing device usability, e.g., for self-monitoring and point of care devices. In one embodiment, the invention is to a method of determining device usability, comprising the steps of providing a device comprising a first electrical pad; a second electrical pad; and a humidity-responsive polymer layer contacting at least a portion of the first and second electrical pads; applying a potential across the first and second electrical pads; measuring an electrical property associated with the humidity-responsive polymer layer; and determining whether the measured electrical property associated with the humidity-responsive polymer layer has exceeded a humidity threshold level associated with the device usability. | 01-03-2013 |
20160054248 | Methods and Devices for Determining Sensing Device Usability - Methods and devices for determining sensing device usability, e.g., for self-monitoring and point of care devices. In one embodiment, the invention is to a method of determining device usability, comprising the steps of providing a device comprising a first electrical pad; a second electrical pad; and a humidity-responsive polymer layer contacting at least a portion of the first and second electrical pads; applying a potential across the first and second electrical pads; measuring an electrical property associated with the humidity-responsive polymer layer; and determining whether the measured electrical property associated with the humidity-responsive polymer layer has exceeded a humidity threshold level associated with the device usability. | 02-25-2016 |
Patent application number | Description | Published |
20100219634 | WIND TURBINE CONTROL METHOD, CONTROL UNIT AND WIND TURBINE - A wind turbine control method for dampening vibrations of a transmission system, even in the presence of voltage dips and in any event that is susceptible to reducing active current generation capacity, is provided. First, for example, an initial torque or power instruction may be calculated based on a turbine operating state. Next, a torque or power adjustment term associated with dampening vibration modes of a turbine transmission system may be calculated. Then, a final torque or power instruction may be calculated by, for example, applying the adjustment term to the initial instruction. Finally, the final torque or power instruction may be transformed into a current instruction for controlling the wind turbine. | 09-02-2010 |
20100241280 | WIND TURBINE CONTROL - Wind turbine control may be provided. First, a control parameter indicative of foreseeable fluctuations in a rotational speed of a rotor due to wind turbulence may be obtained. The first control parameter may be calculated based on a first signal indicative of a wind power and a second signal indicative of wind turbulence intensity. Then, the control parameter may be compared with a threshold value. Next, a maximum power to be generated by the wind turbine may be reduced if the control parameter exceeds said threshold. | 09-23-2010 |