Abstract: The present disclosure relates to a pyrolysis bio-oil fractional condensation device and method capable of cooling medium self-circulation. The device includes a primary condensation system, a secondary condensation system and a cooling medium self-regulation heat exchange system. The primary condensation system uses the temperature-regulated cooling medium to condense the macromolecular tar by direct heat exchange with the pyrolysis volatiles. The condensed tar is heated, pushed and scraped with a rotary mechanism to prevent adhesion. The spray liquid in the secondary condensation system exchange heat with the uncondensed volatiles directly for secondary condensation.

Abstract: Provided are antibodies including antigen binding fragment thereof that specifically recognizing Interleukin-4 receptor ? (IL-4R?). Also provided are methods of making and using these antibodies.

Abstract: The present disclosure relates to a pyrolysis bio-oil fractional condensation device and method capable of cooling medium self-circulation. The device includes a primary condensation system, a secondary condensation system and a cooling medium self-regulation heat exchange system. The primary condensation system uses the temperature-regulated cooling medium to condense the macromolecular tar by direct heat exchange with the pyrolysis volatiles. The condensed tar is heated, pushed and scraped with a rotary mechanism to prevent adhesion. The spray liquid in the secondary condensation system exchange heat with the uncondensed volatiles directly for secondary condensation.

Abstract: A biomass pyrolysis device and a biomass pyrolysis method is for optimal matching of thermal energy and microwave energy, wherein the device comprises a power generation system, a drying device and a microwave pyrolysis device; wherein the drying device is a cylinder nested with a flue gas layer and a material layer, a material inlet of the drying device is connected with a feeding device, and a volatile outlet is connected with a condensing unit; the microwave pyrolysis device is connected with a material outlet of the drying device, and a pyrolysis gas outlet of the microwave pyrolysis device is connected with the condensing unit; the condensing unit is connected with the power generation system, and waste gas generated by the power generation system is introduced into the flue gas layer of the drying device.

Abstract: Disclosed herein are example embodiments of a transformative sensor apparatus that is capable of detecting and quantifying the presence of a substance of interest such as a specified bacteria within a sample via changes in impedance exhibited by a detection electrode array. In an example embodiment, sensitivity is improved by including a focusing electrode array in a rampdown channel to focus a concentration of the substance of interest into a detection region. The focusing electrodes include an opposing pair of electrodes in a rampdown orientation. The focusing electrode may also include tilted thin film finger electrodes extending from the rampdown electrodes. In another example embodiment, trapping electrodes are positioned to trap a concentration of the substance of interest onto the detection electrode array.

Abstract: The present invention is directed to antimicrobial agents and compositions including the same. The antimicrobial agent can include a polypeptide or a peptidomimetic of the polypeptide. The polypeptide can have a net positive charge of at least about 3 at a pH of 7.0, and a hydrophobicity of greater than 25%.

Abstract: The present invention is directed to antimicrobial agents and compositions including the same. The antimicrobial agent can include a polypeptide or a peptidomimetic of the polypeptide. The polypeptide can have a net positive charge of at least about 3 at a pH of 7.0, and a hydrophobicity of greater than 25%.

Abstract: Disclosed herein are example embodiments of a transformative sensor apparatus that is capable of detecting and quantifying the presence of a substance of interest such as a specified bacteria within a sample via changes in impedance exhibited by a detection electrode array. In an example embodiment, sensitivity is improved by including a focusing electrode array in a rampdown channel to focus a concentration of the substance of interest into a detection region. The focusing electrodes include an opposing pair of electrodes in a rampdown orientation. The focusing electrode may also include tilted thin film finger electrodes extending from the rampdown electrodes. In another example embodiment, trapping electrodes are positioned to trap a concentration of the substance of interest onto the detection electrode array.

Abstract: Disclosed herein are example embodiments of a transformative sensor apparatus that is capable of detecting and quantifying the presence of a substance of interest such as a specified bacteria within a sample via changes in impedance exhibited by a detection electrode array. In an example embodiment, sensitivity is improved by including a focusing electrode array in a rampdown channel to focus a concentration of the substance of interest into a detection region. The focusing electrodes include an opposing pair of electrodes in a rampdown orientation. The focusing electrode may also include tilted thin film finger electrodes extending from the rampdown electrodes. In another example embodiment, trapping electrodes are positioned to trap a concentration of the substance of interest onto the detection electrode array.

Abstract: A method or corresponding apparatus for performing an automated action based on a roaming satisfaction indicator (RSI). A roaming satisfaction indicator for each individual mobile subscriber at a given time is evaluated by determining an age for each stored event by comparing the time the event was identified and the given time, assigning a current value to each of the stored events as a function of the determined age, the predetermined event type, and the predetermined impact level, and compiling the assigned current values of the events, resulting in the roaming satisfaction indicator at the given time. Based on the evaluated RSI, an action is automatically performed.

Abstract: Devices and methods are disclosed, related to high power diode switches. In some embodiments, a radio-frequency switch circuit can include a first switchable path implemented between a pole and a first throw, the first switchable path including one or more PIN diodes, and a second switchable path implemented between the pole and a second throw, the second switchable path including one or more PIN diodes. The radio-frequency switch circuit can further include a switchable shunt path implemented between the second throw and a ground, the switchable shunt path including at least one shunt PIN diode and a capacitance between the second throw and the at least one shunt PIN diode. The pole can be an antenna port, and the first and second throws can be transmit and receive ports, respectively.

Abstract: A method or corresponding apparatus for performing an automated action based on a roaming satisfaction indicator (RSI). A roaming satisfaction indicator for each individual mobile subscriber at a given time is evaluated by determining an age for each stored event by comparing the time the event was identified and the given time, assigning a current value to each of the stored events as a function of the determined age, the predetermined event type, and the predetermined impact level, and compiling the assigned current values of the events, resulting in the roaming satisfaction indicator at the given time. Based on the evaluated RSI, an action is automatically performed.

Abstract: A method and corresponding apparatus for automatically detecting and preventing fraudulent calls on a communication network. At least one example embodiment may include collecting CDRs on the communication network for a given time period, aggregating the plurality of call features for each of the collected call detail records by destination number, and utilizing machine learning to generate a decision model for determining if a destination number and/or a call to that destination number may be fraudulent. According to another aspect of the example embodiment, the decision model may be implemented on the communication network to detect and prevent fraudulent calls.

Abstract: Devices and methods are disclosed, related to high power diode switches. In some embodiments, a radio-frequency switch circuit can include a first switchable path implemented between a pole and a first throw, the first switchable path including one or more PIN diodes, and a second switchable path implemented between the pole and a second throw, the second switchable path including one or more PIN diodes. The radio-frequency switch circuit can further include a switchable shunt path implemented between the second throw and a ground, the switchable shunt path including at least one shunt PIN diode and a capacitance between the second throw and the at least one shunt PIN diode. The pole can be an antenna port, and the first and second throws can be transmit and receive ports, respectively.

Abstract: Disclosed herein are example embodiments of a transformative sensor apparatus that is capable of detecting and quantifying the presence of a substance of interest such as a specified bacteria within a sample via changes in impedance exhibited by a detection electrode array. In an example embodiment, sensitivity is improved by including a focusing electrode array in a rampdown channel to focus a concentration of the substance of interest into a detection region. The focusing electrodes include an opposing pair of electrodes in a rampdown orientation. The focusing electrode may also include tilted thin film finger electrodes extending from the rampdown electrodes. In another example embodiment, trapping electrodes are positioned to trap a concentration of the substance of interest onto the detection electrode array.

Abstract: A method and corresponding apparatus are provided to detect false answer supervision by determining false answer supervision as either as a function of a number of completed calls of short duration or as a function of a distribution of differences between timestamps of alert signals and timestamps of connect signals used to complete calls, detecting false answer supervision based on the indicator of false answer supervision determined by either functions separately or in combination, and affecting a decision in response to the detecting.

Abstract: A newly identified oncogene with kinase domain (NOK) and its encoded polypeptide, and vectors, fusions, host cells and transgenic animals comprising the said nucleotide sequence. Furthermore, the present invention also describes the methods for diagnosing diseases including tumor and the methods for screening agents capable of inhibiting the occurrence and/or metastasis of tumor.

Abstract: A method and corresponding apparatus are provided to detect false answer supervision by determining false answer supervision as either as a function of a number of completed calls of short duration or as a function of a distribution of differences between timestamps of alert signals and timestamps of connect signals used to complete calls, detecting false answer supervision based on the indicator of false answer supervision determined by either functions separately or in combination, and affecting a decision in response to the detecting.

Abstract: A method, a device and a system for evaluating network reliability are disclosed in the embodiments of the present invention. The method includes: determining an analysis object by acquiring network topology information; acquiring a network failure mode of the analysis object; and analyzing and evaluating reliability of the analysis object in a hierarchical and overall way with respect to the failure mode. As the concept of a hierarchical analysis is introduced into the analysis, analysis properties of analysis objects (for example, a node and a connection) are divided according to hierarchies, so that the network is effectively decomposed, an overall decomposing analysis is ensured, and the difficulty of the analysis is reduced.

Abstract: A decision about provider quality based on a quality metric observed says little about the quality of the provider. Further, the decision may be biased by a variation in customer contributions to the quality metric observed or by a variation in a number of completed calls received by a provider. Accordingly, a method and corresponding apparatus are provided to evaluate quality and to correct bias by determining a standard that accounts for at least one source of bias, comparing an observed measure of a provider against the standard to produce an evaluation of the observed measure of the provider, and affecting a decision about the quality of the provider based on the evaluation. As a result, an unbiased decision, for example, to scrub a provider can be made and in some instances, a provider may be rescued from being scrubbed.