Patent application number | Description | Published |
20090299893 | METHOD AND SYSTEM FOR PROVIDING OPTION SPREAD INDICATIVE QUOTES - A computer network and method for electronically trading combinations of derivatives. One preferred method of trading includes providing quotes information to a central server, and determining indicative quotes for combination trades, and providing the non-binding, indicative quotes to market participants (which typically includes subscribers, but may also include market makers). A participant may then submit an e-RFQ, which is a request for a binding quote for the combination of derivatives. Market Makers may then elect to submit a binding quote for the corresponding derivative combination. Market participants may then elect to enter a binding order. | 12-03-2009 |
20130030980 | Method and System for Providing Option Spread Indicative Quotes - A computer network and method for electronically trading combinations of derivatives. One preferred method of trading includes providing quotes information to a central server, and determining indicative quotes for combination trades, and providing the non-binding, indicative quotes to market participants (which typically includes subscribers, but may also include market makers). A participant may then submit an e-RFQ, which is a request for a binding quote for the combination of derivatives. Market Makers may then elect to submit a binding quote for the corresponding derivative combination. Market participants may then elect to enter a binding order. | 01-31-2013 |
20130232055 | Method and System for Providing Option Spread Indicative Quotes - A computer network and method for electronically trading combinations of derivatives. One preferred method of trading includes providing quotes information to a central server, and determining indicative quotes for combination trades, and providing the non-binding, indicative quotes to market participants (which typically includes subscribers, but may also include market makers). A participant may then submit an e-RFQ, which is a request for a binding quote for the combination of derivatives. Market Makers may then elect to submit a binding quote for the corresponding derivative combination. Market participants may then elect to enter a binding order. | 09-05-2013 |
Patent application number | Description | Published |
20090054405 | PI3 kinase modulators and methods of use - The present invention comprises a new class of compounds capable of modulating the activity of PI3 kinase and, accordingly, useful for treatment of PI3 kinase mediated diseases, including melanomas, carcinomas and other cancer-related conditions. The compounds have a general Formula I | 02-26-2009 |
20090176774 | Compounds and methods of use - Selected compounds are effective for prophylaxis and treatment of diseases, such as HGF mediated diseases. The invention encompasses novel compounds, analogs, prodrugs and pharmaceutically acceptable salts thereof, pharmaceutical compositions and methods for prophylaxis and treatment of diseases and other maladies or conditions involving, cancer and the like. The subject invention also relates to processes for making such compounds as well as to intermediates useful in such processes. | 07-09-2009 |
20130158019 | PYRIMIDINE COMPOUNDS THAT INHIBIT ANAPLASTIC LYMPHOMA KINASE - Compounds of Formula I are useful inhibitors of anaplastic lymphoma kinase. Compounds of Formula I have the following structure: | 06-20-2013 |
20130217668 | BENZIMIDAZOLE AND AZABENZIMIDAZOLE COMPOUNDS THAT INHIBIT ANAPLASTIC LYMPHOMA KINASE - Compounds of Formula (I) are useful inhibitors of anaplastic lymphoma kinase. Compounds of Formula (I) have the following structure: where the definitions of the variables are provided herein. | 08-22-2013 |
20160046625 | BENZIMIDAZOLE AND AZABENZIMIDAZOLE COMPOUNDS THAT INHIBIT ANAPLASTIC LYMPHOMA KINASE - Compounds of Formula (I) are useful inhibitors of anaplastic lymphoma kinase. Compounds of Formula (I) have the following structure: where the definitions of the variables are provided herein. | 02-18-2016 |
Patent application number | Description | Published |
20090054046 | Method and apparatus for voice and internet programming of wireless device features - A system and method for use in remotely adjusting, activating, or reprogramming features of a wireless device by utilizing a web interface or portal, such as a computer connected by a network to a server, or by telephone access to an IVR menu on the server, is described. Upon recognition of the command, the server issues a short message service (SMS) message, GPRS message, Bluetooth transmission, WIFI transmission, JAVA, or other data signal, or other type of wireless instruction to the wireless device to modify the desired feature. Alternatively, the wireless device can be prompted by a predetermined caller ID number as a unique programming command to be implemented by the wireless device for adjustments to an operational feature. | 02-26-2009 |
20100184417 | METHOD AND SYSTEM FOR EFFECTING DATA COMMUNICATIONS WITH A WIRELESS DEVICE - A method for effecting data communications with a wireless communication device includes: (a) configuring the wireless communication device for responding to at least one predetermined alert for initiating the data communications with at least one predetermined communicant; (b) transmitting the at least one predetermined alert to the wireless communication device; and (c) operating the wireless communication device in response to recognizing the at least one predetermined alert to initiate a data session for effecting the data communications with the at least one predetermined communicant. | 07-22-2010 |
Patent application number | Description | Published |
20090231069 | Compensated Attenuator Circuit and Oscilloscope Utilizing the Same - An attenuator circuit. The attenuator circuit includes a resistive divider coupled to a capacitive network including first and second capacitive dividers. The resistive divider is configured to perform an N:1 attenuation of a signal in a low frequency range. The first and second capacitive dividers are configured to perform an N:1 attenuation in the high frequency range that is a product of the attenuation provided by each (e.g., each performing an M:1 attenuation, where N=M×M, with the total attenuation of the capacitive dividers being N:1 where N=M×M). A variable capacitance divider is coupled in parallel with the second capacitive divider, and includes first and second variable capacitors that, when adjusted, change the high frequency attenuation of the attenuator circuit to match the value of the high frequency attenuation to that of the low frequency attenuation. | 09-17-2009 |
20090322157 | RF AC/DC Coupling Circuit Using General Purpose Solid-State Relay - A system and method for overcoming the parasitic elements associated with off the shelf or general purpose solid-state devices configured to operate as RF AC/DC signal coupling networks. An AC/DC signal coupling network may comprise a general purpose solid-state relay device and two inductors having values carefully chosen to compensate for the imperfections and intrinsic parasitic elements associated with the solid-state relay. The inductors may also have values carefully chosen to compensate for the parasitic elements of the neighboring or coupled circuit, and for the capacitance that is associated with the printed circuit board bond pad that is directly dependent upon the area of the pad and distance to the neighboring conductors. The inductors may cause the input path to become inductive as the signal frequency increases, and also improve the input return loss over the RF input range. | 12-31-2009 |
20090322310 | Self-Calibration Circuit With Gyrated Output Impedance - Various embodiments of a self-calibration circuit may solve the problem that arises in high performance oscilloscopes and in particular, RF oscilloscopes, of internally providing a precision calibration signal without degrading the bandwidth, flatness of the frequency response, and input return loss of the oscilloscope. The self-calibration circuit may be configured to implement an impedance transformation technique where active and passive circuit elements with carefully chosen values are configured in an impedance converter. During self-calibration, switching elements comprised in the self-calibration circuit may be toggled to create a servo loop comprising an amplifier within the circuit, with an attenuator and resistive component acting as feedback elements. The circuit may hence become an impedance gyrator and behave as a precision source with an impedance matching the input impedance of the load circuit. | 12-31-2009 |
20090323241 | Input Protection Method with Variable Tripping Threshold and Low Parasitic Elements - Various embodiments of an input protection circuitry may be configured with a variable tripping threshold and low parasitic elements, which may prevent a signal from propagating into the protected equipment/device if the voltage of the input signal exceeds a certain limit. The input protection circuit may operate to protect a measurement instrument, which may be an oscilloscope, early in the signal path leading into to the instrument, to avoid exposing sensitive circuitry to damaging voltage levels, and without introducing significant parasitic elements that would degrade the performance of the instrument. The protection circuit may be configured to include clamping to provide protection during the circuit response delay time. The input protection threshold of the protection circuit may be adaptive to a selected voltage range on the instrument without trading-off instrument performance and features. | 12-31-2009 |
20150130526 | Compensated Temperature Variable Resistor - A front-end circuit for measurement devices, for example oscilloscopes or digitizers, may implement DC gain compensation using a programmable variable resistance. A MOS transistor may be configured and operated as a linear resistor with the ability to self-calibrate quickly, while compensating for temperature variations. An integrated CMOS-based variable resistor may be thereby used for an analog adjustable attenuator. Master and slave CMOS transistors may be operated in linear mode, and temperature effects on the linear transistors may be compensated for by using an integral loop controller (current controller) configured around the master MOS transistor. Circuits implemented with the compensated variable resistance have a wide range of adjustment with a control voltage, and may be used in the front-end (circuits) of an oscilloscope or digitizer, or in any other circuit and/or instrumentation benefitting from an adjustable attenuator. | 05-14-2015 |
20150137840 | Solid State Wideband High Impedance Voltage Converter - A front-end converter circuit may allow devices, e.g. oscilloscopes and digitizers, to receive input signals having a wide range of possible amplitudes while maintaining a high standardized input impedance. The converter may selectively couple, using low-voltage switches, a selected input network of two or more input networks to a virtual ground node, and a selected feedback network of two or more feedback networks to a transconductance stage input. The selected input network and selected feedback network together define a respective input signal amplitude range. The converter may also controllably adjust an AC gain of the converter to match a DC gain of the converter, and selectively couple non-selected input networks to signal ground. Output referred integrated resistor thermal noise may be reduced to a desired value by lowering the value of the transconductance stage coupled across the input of the converter (through an input resistance) and the virtual ground node. | 05-21-2015 |
Patent application number | Description | Published |
20080222080 | Inferred index of circular tables in a database - A database system uses indexes to improve performance. The system can use one or more of the following: differentiated subfields for index clustering; set function calculations to reduce the amount of I/O; and/or using an inferred index in a circular table. | 09-11-2008 |
20080222089 | Set function calculation in a database - A database system uses indexes to improve performance. The system can use one or more of the following: differentiated subfields for index clustering; set function calculations to reduce the amount of I/O; and/or using an inferred index in a circular table. | 09-11-2008 |
20080222104 | Clustered index with differentiated subfields - A database system uses indexes to improve performance. The system can use one or more of the following: differentiated subfields for index clustering; set function calculations to reduce the amount of I/O; and/or using an inferred index in a circular table. | 09-11-2008 |
20100198830 | DYNAMIC DATA DISTRIBUTION AGGREGATION - Systems and methods reduce a time to calculate an aggregate of data values associated with a range of index entries. The system manages aggregate values within data stored in the entries of an index during insertion, modification, and deletion operations, and provides new index operations to generate aggregate values associated with a range of index entries. Multiple simultaneous operations can be executed efficiently. | 08-05-2010 |
20130297615 | CLUSTERED INDEX WITH DIFFERENTIATED SUBFIELDS - A database system uses indexes to improve performance. The system can use one or more of the following: differentiated subfields for index clustering; set function calculations to reduce the amount of I/O; and/or using an inferred index in a circular table. | 11-07-2013 |
20160048573 | DYNAMIC FEATURE SET MANAGEMENT - In an example, a network is described with a plurality of data sources. Each data source may provide a feature, such as a data type that the data source collects or generates. A data aggregator may be connected to the network, and configured to collect, classify, and merge features as appropriate. The data aggregator includes a discriminator for classifying features, a merger, unmerger, converter, and evaluator. Features are provided to one or more expert systems configured to control one or more systems based on the features. Feedback to the data aggregator is used to evaluate the success of a merge. When a merge is found to be unhelpful, features may be unmerged. | 02-18-2016 |
Patent application number | Description | Published |
20130031872 | Process for Preparing Sorptive Substrates, and Integrated Processing System for Substrates - A process for treating a substrate comprised of sorptive material is provided herein. The sorptive material may be an absorbent synthetic material such as polyester. The material is designed to be used for cleaning surfaces in an ultraclean environment. The process first comprises unwinding a roll of sorptive material as a substrate into a cleaning system. The cleaning system utilizes several sections. These include a pre-washing section, an acoustic energy washing section, and a drying section. Preferably, the process of moving the substrate through the cleaning system is continuous. The acoustic energy washing section employs one or more acoustic energy generators. In one aspect, the process also includes cutting the substrate into sections to form wipers after moving the substrate through the drying section. Thereafter, the wipers are placed into bag, and the bag is sealed. An integrated processing or treating system for a sorptive material is also provided herein. | 02-07-2013 |
20150330007 | Process for Preparing Sorptive Substrates, and Integrated Processing System - A process for treating a substrate comprised of sorptive material is provided herein. The sorptive material may be an absorbent synthetic material such as polyester. The material is designed to be used for cleaning surfaces in an ultraclean environment. The process first comprises unwinding a roll of sorptive material as a substrate into a cleaning system. The cleaning system utilizes several sections. These include a pre-washing section, an acoustic energy washing section, and a drying section. Preferably, the process of moving the substrate through the cleaning system is continuous. The acoustic energy washing section employs one or more acoustic energy generators. In one aspect, the process also includes cutting the substrate into sections to form wipers after moving the substrate through the drying section. Thereafter, the wipers are placed into a bag and the bag is sealed. | 11-19-2015 |
Patent application number | Description | Published |
20100292596 | System, Method and Computer-Readable Storage Medium For Heart Signal Detection - A system, method and computer-readable storage medium are configured for the detection of electrical signals originating from a human or animal heart. In particular, for monitoring devices, it is desired to obtain electrical signals from a human or animal heart with electrical contacts at the body of an implantable medical device, hence without the need to implant electrical leads to the hearts. Hence, a method, a system and a computer-readable storage medium for detecting electrical signals originating from a human or animal heart is proposed. The method includes the steps of receiving electrical signals in at least two sensing channels, combining the electrical signals for forming a combined channel, extracting a template from the signals of the combined channel, comparing incoming electrical signals with the template, and depending from the result of the comparison, performing at least one of controlling one or more devices and signaling the result. | 11-18-2010 |
20140222110 | IMPLANTABLE MEDICAL DEVICE, MEDICAL SYSTEM AND METHOD FOR DATA COMMUNICATION - An implantable medical device including a data communication device that includes a device to alter and/or generate an oscillatory electric field imposed on body tissue surrounding the implantable medical device when the implantable medical device is in its implanted state. The device that alters an oscillatory electric field modulates an impedance of body tissue surrounding the implantable medical device when the implantable medical device is in its implanted state and within an oscillatory electric field. The device that alters an oscillatory electric field includes a device that generates an oscillatory electric field that is phase-synchronized with an oscillatory electric field imposed on body tissue surrounding the implantable medical device when the implantable medical device is in its implanted state. | 08-07-2014 |
20140236032 | IMPLANTABLE HEART MONITORING DEVICE - An implantable heart monitoring device including a sensing unit, a signal quality analysis unit, and an evaluation unit. The sensing unit is connected to at least one electrode that picks up electric potentials. The sensing unit processes electrical signals corresponding to the electric potentials, and generates sense signals including events corresponding to myocardial contractions. The signal quality analysis unit determines whether a noise condition (NC) and/or a low signal indication is present for an event and generates an indication signal. The evaluation unit evaluates the sense signals and the indication signals, treats a detected event as non-valid if a NC and/or low signal indication signal is present for that event, and uses only intervals defined by two consecutive events which do not have a NC and/or a low signal indication to determine a rate of events of the sense signal. | 08-21-2014 |
20140236034 | METHOD FOR THE DETECTION OF SUBCUTANOUS CARDIAC SIGNALS AND A CARDIAC DEVICE FOR USE IN DETECTING SUBCUTANEOUS CARDIAC SIGNALS - A cardiac device and method for detecting QRS signals within a composite heart signal of a body including providing at least two input heart signals via at least two separate input channels, wherein each of the at least two input heart signals is recorded by pairs of sensing electrodes that have one electrode in common and provided coincidental in time. The cardiac device and method include generating estimated signals from the input heart signals, combining the input heart signals and the estimated signals to a combined input stream (SECG), and detecting the QRS signal by comparing the combined input stream (SECG) to an adaptive detection threshold (ATHR) which adapts throughout time. | 08-21-2014 |
20150245779 | DEVICE AND METHOD FOR DETECTION OF ATRIAL FIBRILLATION - A cardiac device and method thereof for detecting atrial fibrillation within a mean heart signal of a body, wherein the cardiac device includes at least two sensing electrodes. The method includes providing an input heart signal, detecting sense events (VS) and noise events (VN), and generating further noise events (VN) each at a predetermined time interval after a noise event (VN) has been detected and when the noise event (VN) continues. The method includes incrementing a noise counter for each noise event (VN) and each further noise event (VN), and terminating the detection of atrial fibrillation when the noise counter reaches a predetermined limit. | 09-03-2015 |