Patent application number | Description | Published |
20090113009 | Notification Device Interaction - Devices and methods are disclosed for establishing device interaction among electronic devices of a device environment and a notification device interfaced with the user. Notification devices allow the user to communicate directly with the device environment, such as by entering information in a mobile phone that has a wireless connection to the environment. A device of the environment has a first transmitter and receiver for communicating with other devices, such as a notification device within the environment. In the instance where a notification device is located remotely, the device of the environment may also include a second transmitter and receiver for communicating with the remotely located notification device through a remote communications transport. A memory stores interaction rules and translation rules, and a processor implements the interaction rules and translation rules to establish interaction with the notification device. Methods may involve detecting a change of state at a device and then communicating with the notification device in accordance with the interaction rules and translation rules thereafter. Methods may also involve directing a message from a notification device to a device of the environment, such as through the remote communication transport, and then communicating from the device of the environment to additional devices. | 04-30-2009 |
20100075702 | Device for Aggregating, Translating, and Disseminating Communications Within a Multiple Device Environment - Aggregator devices and methods are disclosed for establishing device interaction in an environment containing other electronic devices and the aggregator device. The aggregator device has a transmitter, receiver, memory storing interaction rules, and a processor for implementing the interaction rules in association with the transmitter, receiver, and other devices of the environment. The methods involve transmitting a message to the aggregator from a first device, referencing rules of device interaction for the environment, and then according to the rules of device interaction, transmitting a message from the aggregator to a second device. The rules of device interaction may include instructions that are to be transmitted from the aggregator in response to the aggregator receiving change of state messages from devices of the environment. | 03-25-2010 |
20110121938 | Learning Device Interaction Rules - Devices and methods are disclosed for establishing interaction among electronic devices of an environment. The device has a transmitter, receiver, memory for storing interaction rules, and a processor for learning the interaction rules in association with the transmitter, receiver, and other devices of the environment. The device also includes components for performing the device specific functions and a state sensor for determining the logical or physical state of the device. Methods involve observing at one or more devices change of state activity among the plurality of devices through receiving a change of state message that is transmitted to the one or more devices. A set of rules are learned at the one or more devices based upon observing the change of state activity. The learned set of rules are then applied at the one or more devices to automatically control changes of state of devices within the plurality of devices. | 05-26-2011 |
20130253674 | DEVICE FOR AGGREGATING, TRANSLATING, AND DISSEMINATING COMMUNICATIONS WITHIN A MULTIPLE DEVICE ENVIRONMENT - Methods, systems, and products aggregate and distribute changes of state between devices. A plurality of devices communicates with an aggregator. The plurality of devices sends their respective changes of state to the aggregator. The aggregator queries a set of interaction rules to determine how the change of state is disseminated among the plurality of devices. | 09-26-2013 |
Patent application number | Description | Published |
20080239920 | Wireless transmission of temperature data - An identification input device and a temperature detector that detects body temperature data. The identification input device may be an optical touch pen. The infrared touch pen may be affixed to the temperature detector using a hook and connector or a snap fit connector. In use, the temperature detector computes body temperature data and the identification input device determines an identifier. The identifier is unique to a user. After obtaining the body temperature data and identifier, a transmitter may transmit body temperature data and the identifier over a wireless communications path to a processing unit. By transmitting data over a wireless communications path, an individual's data or a large group of data may be analyzed and viewed via a display unit. | 10-02-2008 |
20080262782 | Wireless transmission of temperature data for a geographic area - A user obtains an individual's body temperature data and transmits the data to a medical monitor (e.g., a medical device) for display. Additional data includes a timestamp and location of the body temperature data. Once the data is transmitted, a user may view the medical monitor for a temperature reading. For example, a doctor may take a patient's temperature and the temperature reading is displayed on a medical monitor. The body temperature data of each patient is detected using a preferred temperature detector, such as a temporal artery thermometer using an arterial heat balance approach. After collecting an individual's body temperature data, the body temperature data can be transferred to a processor. By sending body temperature data for many individuals for a geographic region, the processor can identify a pattern (e.g., a pandemic) in the body temperature data. | 10-23-2008 |
20120197585 | Wireless Transmission of Temperature Data for a Geographic Area - A user obtains an individual's body temperature data and transmits the data to a medical monitor (e.g., a medical device) for display. Additional data includes a timestamp and location of the body temperature data. Once the data is transmitted, a user may view the medical monitor for a temperature reading. For example, a doctor may take a patient's temperature and the temperature reading is displayed on a medical monitor. The body temperature data of each patient is detected using a preferred temperature detector, such as a temporal artery thermometer using an arterial heat balance approach. After collecting an individual's body temperature data, the body temperature data can be transferred to a processor. By sending body temperature data for many individuals for a geographic region, the processor can identify a pattern (e.g., a pandemic) in the body temperature data. | 08-02-2012 |
20140046620 | Wireless Transmission Of Temperature Data For A Geographic Area - A user obtains an individual's body temperature data and transmits the data to a medical monitor (e.g., a medical device) for display. Additional data includes a timestamp and location of the body temperature data. Once the data is transmitted, a user may view the medical monitor for a temperature reading. For example, a doctor may take a patient's temperature and the temperature reading is displayed on a medical monitor. The body temperature data of each patient is detected using a preferred temperature detector, such as a temporal artery thermometer using an arterial heat balance approach. After collecting an individual's body temperature data, the body temperature data can be transferred to a processor. By sending body temperature data for many individuals for a geographic region, the processor can identify a pattern (e.g., a pandemic) in the body temperature data. | 02-13-2014 |
20140149065 | METHOD AND APPARATUS FOR ACCURATE DETECTION OF FEVER - The present invention relates to more accurate indication of fever. Temperature data from a large population of individuals are obtained and the temperature data are processed to determine a threshold, at a fever bump, above a normal range of distribution. The fever threshold, along with an individual's temperature, is used to indicate if the individual has a fever. Further, circadian information may be utilized to adjust the temperature data for an individual or the population of individuals. | 05-29-2014 |
20140243700 | WIRELESS TRANSMISSION OF TEMPERATURE DATA - An identification input device and a temperature detector that detects body temperature data. The identification input device may be an optical touch pen. The infrared touch pen may be affixed to the temperature detector using a hook and connector or a snap fit connector. In use, the temperature detector computes body temperature data and the identification input device determines an identifier. The identifier is unique to a user. After obtaining the body temperature data and identifier, a transmitter may transmit body temperature data and the identifier over a wireless communications path to a processing unit. By transmitting data over a wireless communications path, an individual's data or a large group of data may be analyzed and viewed via a display unit. | 08-28-2014 |
20150017592 | Method for Temperature Measurements of Surfaces With a Low, Unknown and/or Variable Emissivity - Devices and corresponding methods can be provided to monitor or measure temperature of a target or to control a process. Targets can have low, unknown, or variable emissivity. Devices and corresponding methods can be used to measure temperatures of thin film, partially transparent, or opaque targets, as well as targets not filling a sensor's field of view. Temperature measurements can be made independent of emissivity of a target surface by, for example, inserting a target between a thermopile sensor and a background surface maintained at substantially the same temperature as the thermopile sensor. In embodiment devices and methods, a sensor temperature can be controlled to match a target temperature by minimizing or zeroing a net heat flux at the sensor, as derived from a sensor output signal. Alternatively, a target temperature can be controlled to minimize the heat flux. | 01-15-2015 |
Patent application number | Description | Published |
20120058530 | ENGINEERING THE PATHWAY FOR SUCCINATE PRODUCTION - This invention relates to the biocatalysts for the efficient production of succinic acid and/or other products from renewable biological feedstocks. The biocatalysts have a very high efficiency for the growth-coupled production of succinic acid and/or other products from carbohydrate feed stocks as a result of both genetic manipulations and metabolic evolution. More specifically, certain biocatalysts of the present invention produce succinic acid at high titers and yield in mineral salts media during simple pH-controlled, batch fermentation without the addition of any exogenous genetic material. The genetic manipulations of the present invention are concerned with the energy-conserving strategies coupled with the elimination of alternative routes for NADH oxidation other than the routes for succinic acid production. The biocatalysts contain glucose-repressed gluconeogenic phosphoenol pyruvate carboxykinase (pck) depressed by genetic modifications and a genetically-inactivated phosphotransferase system. In terms of succinic acid production efficiency, the biocatalysts of the present invention are functionally equivalent to succinate producing rumen bacteria such as | 03-08-2012 |
20120077241 | ETHANOLOGENIC BACTERIA AND THEIR USE IN ETHANOL PRODUCTION - The invention relates to bacterium that have increased resistance to furfural and methods of preparation. The invention also relates to methods of producing ethanol using the bacterium and corresponding kits. | 03-29-2012 |
20120108855 | INCREASED EXPRESSION OF TRANSHYDROGENASE GENES AND THEIR USE IN ETHANOL PRODUCTION - The invention provides isolated or recombinant ethanologenic bacteria that have increased expression of transhydrogenase genes and methods of preparation. The invention also provides methods of producing ethanol using the bacterium and corresponding kits. | 05-03-2012 |
20150284746 | ENGINEERING THE PATHWAY FOR SUCCINATE PRODUCTION - This invention relates to the biocatalysts for the efficient production of succinic acid and/or other products from renewable biological feedstocks. The biocatalysts have a very high efficiency for the growth-coupled production of succinic acid and/or other products from carbohydrate feed stocks as a result of both genetic manipulations and metabolic evolution. More specifically, certain biocatalysts of the present invention produce succinic acid at high titers and yield in mineral salts media during simple pH-controlled, batch fermentation without the addition of any exogenous genetic material. The genetic manipulations of the present invention are concerned with the energy-conserving strategies coupled with the elimination of alternative routes for NADH oxidation other than the routes for succinic acid production. The biocatalysts contain glucose-repressed gluconeogenic phosphoenol pyruvate carboxykinase (pck) derepressed by genetic modifications and a genetically-inactivated phosphotransferase system. In terms of succinic acid production efficiency, the biocatalysts of the present invention are functionally equivalent to succinate producing rumen bacteria such as | 10-08-2015 |
Patent application number | Description | Published |
20100307042 | MODULAR FIREARM STOCK SYSTEM - A modular firearm is disclosed. The firearm that can be configured to operate using ammunition of different calibers via interchangeability of only a few parts. The firearm includes a foldable butt stock assembly for quickly and easily converting the firearm from an extended operating configuration to a compact transport configuration, and vice-versa. Additionally, the firearm includes a modular hand guard assembly having multiple mounting platforms for accommodating a variety of different accessories. | 12-09-2010 |
20120159828 | MODULAR FIREARM STOCK SYSTEM - A modular firearm is disclosed. The firearm that can be configured to operate using ammunition of different calibers via interchangeability of only a few parts. The firearm includes a foldable butt stock assembly for quickly and easily converting the firearm from an extended operating configuration to a compact transport configuration, and vice-versa. Additionally, the firearm includes a modular hand guard assembly having multiple mounting platforms for accommodating a variety of different accessories. | 06-28-2012 |
20130326924 | MODULAR FIREARM STOCK SYSTEM - A modular firearm is disclosed. The firearm that can be configured to operate using ammunition of different calibers via interchangeability of only a few parts. The firearm includes a foldable butt stock assembly for quickly and easily converting the firearm from an extended operating configuration to a compact transport configuration, and vice-versa. Additionally, the firearm includes a modular hand guard assembly having multiple mounting platforms for accommodating a variety of different accessories. | 12-12-2013 |
20140115938 | Quick Detach Barrel Mounting System - A quick-detach barrel mounting system for removing and attaching a barrel to a receiver of a firearm. The quick-detach barrel mounting system can include a barrel nut having a body defining an axial bore. A proximal end of the barrel is received at least partially through the axial bore, and the barrel nut releasably engages a front end of the receiver. A hand guard can be mounted to the receiver and can define a cutout proximate the receiver. The hand guard at least partially encloses at least a portion of the barrel and the barrel nut, and the cutout is at least partially aligned with the barrel nut. At least a portion of the barrel nut is accessible via the cutout of the hand guard for at least partially disengaging and engaging the barrel nut with the receiver when the hand guard is mounted on the receiver. | 05-01-2014 |
20150247695 | QUICK DETACH BARREL MOUNTING SYSTEM - A quick-detach barrel mounting system for removing and attaching a barrel to a receiver of a firearm. The quick-detach barrel mounting system can include a barrel nut having a body defining an axial bore. A proximal end of the barrel is received at least partially through the axial bore, and the barrel nut releasably engages a front end of the receiver. A hand guard can be mounted to the receiver and can define a cutout proximate the receiver. The hand guard at least partially encloses at least a portion of the barrel and the barrel nut, and the cutout is at least partially aligned with the barrel nut. At least a portion of the barrel nut is accessible via the cutout of the hand guard for at least partially disengaging and engaging the barrel nut with the receiver when the hand guard is mounted on the receiver. | 09-03-2015 |