Patent application number | Description | Published |
20140122497 | COLLECTING AND CLASSIFYING USER INFORMATION INTO DYNAMICALLY-UPDATED USER PROFILES - Systems and methods for collecting, classifying and organizing user information into a dynamically-updated user profile are provided. Information pertaining to a user is obtained from one or more data sources, and the information is then classified into specific categories using field mapping and other techniques, after which it is organized into a user profile and securely stored in a database. The user profile is dynamically-updated by automatically detecting and storing updates to the information in the user profile based on user interactions, communications and other online or electronic activities. Information is instantaneously collected from user-completed electronic form input fields which is mapped back to the user profile. The user profile is a single, comprehensive source of user information that is securely stored and available to the user in any location and for any purpose, such as automatically and instantaneously populating fields of an electronic document, form or web-based application. | 05-01-2014 |
20140122508 | SYSTEMS AND METHODS FOR SECURE STORAGE OF USER INFORMATION IN A USER PROFILE - Systems and methods are provided for securely storing information of a user in a user profile to prevent access to the information and minimize the amount of information disclosed during a security breach. Information pertaining to a user is obtained from one or more sources and organized into a user profile and securely stored in a database. The user profile may be stored remotely in a cloud-based system at a remote encrypted server, with portions of the profile stored in separate locations with separate encryption to minimize the risk of unauthorized access to one portion of the information. The fields of data in the user profile may also be separately encrypted with separate encryption keys and separately stored in separate databases to minimize the amount of information which could be disclosed by the unauthorized access to a single encryption key or a single database. | 05-01-2014 |
20140122987 | SYSTEMS AND METHODS FOR COLLECTING, CLASSIFYING, ORGANIZING AND POPULATING INFORMATION ON ELECTRONIC FORMS - Systems and methods for collecting, classifying, transmitting and updating personal information for completion and submission or supplementation of electronic forms or databases on any type of mobile or other computing device are provided. Information relating to a user is obtained from one or more sources through electronic means, and the information is then organized and securely stored in a database using field mapping and other techniques to classify the information into specific categories. The information that is obtained and organized may include contact information, financial information, health information and historical information. The organized information may then be accessed by the user to automatically and instantaneously populate or supplement an electronic document, form or web-based application without requiring the user to manually enter the information. The system automatically detects and stores updates to information and builds a database of forms and electronic documents for future use. | 05-01-2014 |
20140122988 | SYSTEMS AND METHODS FOR POPULATING USER INFORMATION ON ELECTRONIC FORMS - Systems and methods are provided for populating user information onto an electronic form such as a word processing document, template, application-specific form or web page. Fields are identified on the electronic form and matched with fields stored in a continuously-updated user profile before the content of the matching fields are populated onto the electronic form. The electronic form may be stored within a central forms library and selected by the user for completion, while a third-party form presented as a word processing document, template, application-specific form or web page may be populated using an application extension which communicates with an application, browser or third-party service to identify and populate the form fields. Additionally, a mobile application provides for physical forms to be captured by a camera on a smartphone or tablet, after which the fields are identified and populated onto the captured image of the form. | 05-01-2014 |
20140122989 | SYSTEMS AND METHODS FOR TRACKING, REPORTING, SUBMITTING AND COMPLETING INFORMATION FORMS AND REPORTS - Systems and methods are provided for creating templates in an information management tool that are designed to track and timely and accurately report certain information in accordance with the requirements of a specific process, form or other requirement. Information relating to a user is obtained from one or more sources through electronic means, and the information is then organized and securely stored in a database using field mapping and other techniques to classify the information into specific categories. The information that is obtained and organized may include contact information, financial information, health information and historical information. The organized information may then be accessed by the user to automatically and instantaneously populate or supplement an electronic document, form or web-based application without requiring the user to manually enter the information. The system automatically detects and stores updates to information and builds a database of forms and electronic documents for future use. | 05-01-2014 |
20140123057 | HUMAN INTERACTIONS FOR POPULATING USER INFORMATION ON ELECTRONIC FORMS - Systems and methods are provided for populating user information onto an electronic form using human interactions via touch, voice, gestures or an input device. The electronic form is selected by the user for completion using a user profile of stored data. When a form field requires a manual input—such as a form field with multiple potential values—a user is prompted to complete the field using one or more of the human interactions to allow the user to easily complete the field. These human interactions may include touching the form field with a finger on a touchscreen user interface, speaking the form field name, gesturing or selecting via the input device to generate a window of different potential values, and then touching, speaking, gesturing of selecting via the input device the value that the user prefers. | 05-01-2014 |
Patent application number | Description | Published |
20130047835 | AIRCRAFT STORE EJECTOR SYSTEM - An aircraft store ejector systems and subsystems thereof. Embodiments can include a two-reservoir re-pressurization system wherein a remote reservoir is used to maintain desired pressure in a local ejector reservoir. The system can include a release valve having a vent valve and valve piston. The release valve can control release of pressurized gas to a pitch control valve. The pitch control valve can be configured to distribute the pressurized gas between two or more ejector piston assemblies. One or more of the ejector piston assemblies can include multiple concentric piston stages and piston chambers, the piston chambers configured to contain a volume of gas. The ejector piston assemblies can be configured to compress the volume of gas within the piston chambers as the piston stages are extended out from the aircraft. Such compression can provide a return force to the piston stages. | 02-28-2013 |
20130048107 | AIRCRAFT STORE EJECTOR SYSTEM - An aircraft store ejector systems and subsystems thereof. Embodiments can include a two-reservoir re-pressurization system wherein a remote reservoir is used to maintain desired pressure in a local ejector reservoir. The system can include a release valve having a vent valve and valve piston. The release valve can control release of pressurized gas to a pitch control valve. The pitch control valve can be configured to distribute the pressurized gas between two or more ejector piston assemblies. One or more of the ejector piston assemblies can include multiple concentric piston stages and piston chambers, the piston chambers configured to contain a volume of gas. The ejector piston assemblies can be configured to compress the volume of gas within the piston chambers as the piston stages are extended out from the aircraft. Such compression can provide a return force to the piston stages. | 02-28-2013 |
20130048788 | AIRCRAFT STORE EJECTOR SYSTEM - An aircraft store ejector systems and subsystems thereof. Embodiments can include a two-reservoir re-pressurization system wherein a remote reservoir is used to maintain desired pressure in a local ejector reservoir. The system can include a release valve having a vent valve and valve piston. The release valve can control release of pressurized gas to a pitch control valve. The pitch control valve can be configured to distribute the pressurized gas between two or more ejector piston assemblies. One or more of the ejector piston assemblies can include multiple concentric piston stages and piston chambers, the piston chambers configured to contain a volume of gas. The ejector piston assemblies can be configured to compress the volume of gas within the piston chambers as the piston stages are extended out from the aircraft. Such compression can provide a return force to the piston stages. | 02-28-2013 |
20140076156 | AIRCRAFT STORE EJECTOR SYSTEM - An aircraft store ejector systems and subsystems thereof. Embodiments can include a two-reservoir re-pressurization system wherein a remote reservoir is used to maintain desired pressure in a local ejector reservoir. The system can include a release valve having a vent valve and valve piston. The release valve can control release of pressurized gas to a pitch control valve. The pitch control valve can be configured to distribute the pressurized gas between two or more ejector piston assemblies. One or more of the ejector piston assemblies can include multiple concentric piston stages and piston chambers, the piston chambers configured to contain a volume of gas. The ejector piston assemblies can be configured to compress the volume of gas within the piston chambers as the piston stages are extended out from the aircraft. Such compression can provide a return force to the piston stages. | 03-20-2014 |
Patent application number | Description | Published |
20100206260 | Method for preventing exhaust valve seat recession - A method for preventing or inhibiting exhaust valve seat recession in a natural gas fueled internal combustion engine is disclosed. The method involves lubricating the engine with a lubricating oil composition comprising (a) a major amount of an oil of lubricating viscosity, and (b) a minor amount of a natural gas engine oil additive package, wherein the lubricating oil composition is substantially free of each of any zinc compounds and alkaline earth metal salts of a condensation product of an alkylene polyamine, an aldehyde and a substituted phenol. | 08-19-2010 |
20110053814 | Natural gas engine lubricating oil compositions - A lubricating oil composition is disclosed which comprises (a) a major amount of an oil of lubricating viscosity, (b) one or more phosphorus-containing anti-wear additives other than a zinc dithiophosphate, (c) one or more ashless dispersants, (d) one or more metal-containing detergents, and (e) one or more antioxidants, wherein the lubricating oil composition contains no more than about 0.03 weight percent of phosphorus, based on the total weight of the natural gas engine lubricating oil composition, and further wherein the lubricating oil composition is substantially free of any zinc compounds. | 03-03-2011 |
20110245121 | Natural gas engine lubricating oil compositions - A natural gas engine lubricating oil composition is disclosed which comprises (a) a major amount of an oil of lubricating viscosity, (b) one or more phosphorus-containing anti-wear additives, (c) one or more ashless dispersants, (d) one or more alkaline earth metal salts of an alkyl-substituted hydroxyaromatic carboxylic acid, and (e) one or more antioxidants, wherein the natural gas engine lubricating oil composition contains no more than about 0.03 weight percent of phosphorus, based on the total weight of the natural gas engine lubricating oil composition, and further wherein the natural gas engine lubricating oil composition is substantially free of any alkali metal-containing detergents. | 10-06-2011 |
20120108477 | Natural gas engine lubricating oil compositions - A natural gas engine lubricating oil composition is disclosed which comprises (a) a major amount of an oil of lubricating viscosity, (b) one or more phosphorus-containing anti-wear additives, (c) one or more oil soluble overbased alkaline earth metal-containing detergents; and (d) one or more oil soluble neutral alkali metal-containing detergents, wherein the natural gas engine lubricating oil composition contains no more than about 0.03 weight percent of phosphorus, based on the total weight of the natural gas engine lubricating oil composition. | 05-03-2012 |
20150038383 | METHOD FOR PREVENTING EXHAUST VALVE SEAT RECESSION - A method for preventing or inhibiting exhaust valve seat recession in a natural gas fueled internal combustion engine is disclosed. The method involves lubricating the engine with a lubricating oil composition comprising (a) a major amount of an oil of lubricating viscosity, and (b) a minor amount of a natural gas engine oil additive package, wherein the lubricating oil composition is substantially free of each of any zinc compounds and alkaline earth metal salts of a condensation product of an alkylene polyamine, an aldehyde and a substituted phenol. | 02-05-2015 |
20150159108 | LUBRICATING OIL COMPOSITIONS - A method for preventing or inhibiting exhaust valve seat recession in a natural gas fueled engine, the method comprising lubricating the engine with a natural gas engine lubricating oil composition comprising (a) a major amount of an oil of lubricating viscosity, and (b) an alkali metal-containing detergent, wherein the natural gas engine lubricating oil composition is substantially free of each of any alkaline earth metal-containing detergents and lithium-containing detergents is disclosed. | 06-11-2015 |
Patent application number | Description | Published |
20090148869 | CELL ASSAY KIT AND METHOD - A method and kit for assaying a cell sample for the presence of at least a threshold number of cells of a given type are disclosed. The kit includes an assay device having a sample chamber for receiving the cell sample and an elongate collection chamber containing a selected-density and/or viscosity medium and having along its length, a plurality of cell-collection regions, and particles which are capable of specific attachment to cells of the selected cell type, and which are effective, when attached to the cells, to increase the density or magnetic susceptibility of the cells. In operation, particle-bound cells and particles in the cell sample are drawn through the elongate collection chamber under the influence of a gravitational or selected centrifugal or magnetic-field force until the particle-bound cells and particles completely fill successive cell-collection regions in the collection chamber. Indicia associated with at least one collection regions indicates a concentration of cells of the selected type effective to at least partially fill that collection region. | 06-11-2009 |
20110207150 | CELL ASSAY KIT AND METHOD - A method and kit for assaying a cell sample for the presence of at least a threshold number of cells of a given type are disclosed. The kit includes an assay device having a sample chamber for receiving the cell sample and an elongate collection chamber containing a selected-density and/or viscosity medium and having along its length, a plurality of cell-collection regions, and particles which are capable of specific attachment to cells of the selected cell type, and which are effective, when attached to the cells, to increase the density or magnetic susceptibility of the cells. In operation, particle-bound cells and particles in the cell sample are drawn through the elongate collection chamber under the influence of a gravitational or selected centrifugal or magnetic-field force until the particle-bound cells and particles completely fill successive cell-collection regions in the collection chamber. Indicia associated with at least one collection regions indicates a concentration of cells of the selected type effective to at least partially fill that collection region. | 08-25-2011 |
Patent application number | Description | Published |
20140160884 | APPARATUS AND SYSTEM FOR ADAPTIVELY SCHEDULING ULTRASOUND SYSTEM ACTIONS - Apparatus for adaptively scheduling ultrasound device actions includes a probe interface, a beamer, a receiver, a processor, and a memory. The probe interface may interface with probe units to transmit signals generated by the beamer to the probe units and to receive data signals from the probe units. The processor may be coupled to the probe interface, the beamer, and the receiver. The memory may store instructions, which when executed by the processor, causes the processor to generate a task list that includes a timed beam firing sequence and to signal to the beamer to generate signals to the probe units associated with the plurality of task actions. The task list may include a plurality of task actions associated with probe units, and the processor may signal to the beamer in accordance with the timed beam firing sequence. Other embodiments are also described. | 06-12-2014 |
20140160894 | METHOD FOR ADAPTIVELY SCHEDULING ULTRASOUND SYSTEM ACTIONS - A method of adaptively scheduling ultrasound device actions starts with an electronic circuit included in an adaptive scheduler selecting a next task in a task list. The task list may include tasks scheduled to be performed by an ultrasound system. Each of the tasks may include a plurality of task actions. The electronic circuit may then determine if a task action included in the next task can start. This determination may include determining if the task action can be completed without interfering with a start of a higher priority task in the task list. When the electronic circuit determines that the next task action can start, the electronic circuit may signal to a beam associated with the task action to start and perform the task action. Other embodiments are also disclosed. | 06-12-2014 |
20140160895 | APPARATUS AND SYSTEM FOR REAL-TIME EXECUTION OF ULTRASOUND SYSTEM ACTIONS - Apparatus for real-time execution of ultrasound system actions includes processor and memory to store instructions. Execution of the instructions causes processor to receive a task list including task actions that include next task action in task list. Next task action includes task instructions. Processor determines whether next task instruction in next task action is a timed instruction that includes a timestamp field having a time value indicating a time at which next task action is to be executed, and a hardware-enable field indicating hardware elements required to be available before execution of timed instruction. If next task instruction is not a timed instruction, processor may execute next task instruction. If next task instruction is timed instruction, processor determines whether time value has expired. If time value has expired, processor signals an error has occurred, and if time value has not expired, processor waits for time value. Other embodiments are described. | 06-12-2014 |
20140163370 | SYSTEM AND METHOD FOR AUTOMATICALLY ADJUSTING BEAMS TO SCAN AN OBJECT IN A BODY - A method of scanning for an object using an adaptive scheduler starts with an electronic circuit (EC) receiving information associated with the object. A task list is then generated by the EC that includes at least one task action based on the information associated with the object. The at least one task action includes a beam firing required for the object to be scanned. The EC may signal based on the task list to a beamer to generate and send a signal to a probe unit to perform the beam firing. A receiver may receive and process a data signal from the probe unit and send the processed data signals to the EC. The EC may then analyze the processed data signal to determine if the object is identified using the processed data signal. Other embodiments are also described. | 06-12-2014 |
20140165069 | SYSTEM AND APPARATUS HAVING AN APPLICATION PROGRAMMING INTERFACE FOR FLEXIBLE CONTROL OF EXECUTION ULTRASOUND ACTIONS - Apparatus to control and execute ultrasound system actions includes API that includes API procedure, processor coupled to API, adaptive scheduler, and memory. Adaptive scheduler includes beamer to generate signals, probe interface to transmit the signals to at least one probe unit and to receive signals from the at least one probe unit, and receiver to receive and process the signals received from the probe interface. Memory stores instructions, which when executed, causes processor to receive task list including task actions. Processor may execute API procedure to generate scan specification that is a data structure that includes task list. Processor may execute API procedure to identify at least one of: a probe required to perform the task actions, a beam required to perform the task actions and requirements and parameters associated with the beam, or a format of a beam firing result. Other embodiments are described. | 06-12-2014 |
20140171798 | SYSTEM AND METHOD FOR SCANNING FOR A SECOND OBJECT WITHIN A FIRST OBJECT USING AN ADAPTIVE SCHEDULER - Method for scanning for second object on or within first object starts by receiving information on first object and second object. Task lists are generated that include at least one task action based on information on first object and second object. Based on task lists, beamer is then signaled to generate and send first signal to first probe unit to perform first beam firing. Receiver processes first data signal from first probe unit that is then analyzed to determine if first object is identified using processed first data signal. Upon determination that first object is identified, based on task list, beamer is signaled to generate and send second signal to second probe unit to perform second beam firing. Receiver processes second data signal from second probe unit that is then analyzed to determine if second object is identified using processed second data signal. Other embodiments are described. | 06-19-2014 |