Abstract: A water treatment unit includes a unit housing having an electrocoagulation chamber for containing water being treated; a replaceable electrocoagulation cartridge removably retained within the electrocoagulation chamber and having several electrically conductive electrocoagulation plates; a unit control mechanism, and a unit electric circuit electrically connected to the unit control mechanism and adapted to be electrically connected to an electric power source, where the unit electric circuit includes metal strips configured to extend through the water being treated between the replaceable electrocoagulation cartridge and a wall of the electrocoagulation chamber to electrically connect at least one of the electrically conductive electrocoagulation plates to the electric power source when the replaceable electrocoagulation cartridge is retained within the electrocoagulation chamber.

Abstract: A health status monitoring method includes: (a) analyzing transport layer data for a dwelling to identify a plurality of occupant specific transport layer data items based on MAC address mapping, (b) establishing an Internet traffic pattern for the occupant for a period of time based on the identified plurality of occupant specific transport layer data items, (c) comparing the established Internet traffic pattern to a predetermined baseline Internet traffic pattern for the occupant and identifying a deviation from the predetermined baseline Internet traffic pattern based on the comparison, and (d) determining that a change in the health status is possible for the occupant based on the identifying of the deviation.

Abstract: A domain transcendent file cryptology network includes a first data cryptology node in a first data domain having a first security protocol. A hardware processor of the first data cryptology node executes a first instantiation of a software code to receive a request to transfer a data file from the first data domain to a second data domain having a second, different, security protocol, obtain one or more characteristics of the data file, and generate an authentication tag for the data file based on the characteristic(s). The first instantiation of the software code also encrypts the data file and transmits the encrypted data file, the authentication tag, and a decryption key to a second data cryptology node in the second data domain. The decryption key to and the authentication tag enable decryption of the encrypted data file by a second instantiation of the software code on the second data cryptology node.

Abstract: An automated system and method for assisting in decision making for the treatment of stroke patients is provided, and specifically for assisting a physician whether the patient should be administered a drug or transferred to another hospital to undergo an endovascular thrombectomy procedure. A variety of factors are input into the system with limited human intervention and a tool automatically determines the probability of whether the patient will have a better outcome if transferred or not. The factors include clinical factors, imaging factors and time to transfer factors. The tool includes processes for automatically determining several imaging factors, including the determination of clot length, collateral blood flow, the presence of forward blood flow within and around the clot, and the clot permeability. The tool has capability to continuously update the treatment protocol and other output results using current clinical, health system or other relevant information or feedback.

Abstract: The present invention relates to processes including the step of electrochemically treating an iron mineral. The processes are for improving the grade of iron, producing a magnetic iron mineral, or producing an iron oxide. In one aspect, the process for improving the grade of iron includes electrochemically treating a slurry including at least one iron mineral to thereby improve the grade of the iron in the slurry.

Abstract: Methods described herein manage wafer entry into an electrolyte so that air entrapment due to initial impact of the wafer and/or wafer holder with the electrolyte is reduced and the wafer is moved in such a way that an electrolyte wetting wave front is maintained throughout immersion of the wafer also minimizing air entrapment.

Abstract: An automated system and method for assisting in decision making for the treatment of stroke patients is provided, and specifically for assisting a physician whether the patient should be administered a drug or transferred to another hospital to undergo an endovascular thrombectomy procedure. A variety of factors are input into the system with limited human intervention and a tool automatically determines the probability of whether the patient will have a better outcome if transferred or not. The factors include clinical factors, imaging factors and time to transfer factors. The tool includes processes for automatically determining several imaging factors, including the determination of clot length, collateral blood flow, the presence of forward blood flow within and around the clot, and the clot permeability. The tool has capability to continuously update the treatment protocol and other output results using current clinical, health system or other relevant information or feedback.

Abstract: Apparatus includes treatment chamber including at least one outlet for exit of electrochemically treated liquid, and a liquid disperser having a plurality of liquid passageways, wherein each said liquid passageway includes at least one inlet to the treatment chamber for entry of a liquid to be treated; and a plurality of electrodes positioned within the treatment chamber for electrochemical treatment of the liquid.

Abstract: Augmenting parameters are received for one or more default parameters of a virtual entity of one or more client applications. The augmenting parameters are applied to the one or more default parameters to generate a modified set of parameters for the virtual entity. The modified set of parameters are provided to the one or more client applications comprising the virtual entity, wherein the virtual entity is modified based on the modified set of parameters while the one or more client applications is running.

Abstract: A method of providing pressure support to a patient that includes determining a measure associated with an inspiratory time of the patient during therapy, delivering a flow of breathing gas to the patient at an inspiratory positive airway pressure (IPAP) level during at least a portion of an inspiratory phase of the patient, delivering the flow of breathing gas to the patient at an expiratory positive airway pressure (EPAP) level that is less than the IPAP level during at least a portion of an expiratory phase of the patient, and automatically setting a rise time associated with a transition from the EPAP level to the IPAP level based on the measure associated with the inspiratory time of the patient. Also provided is a pressure support system adapted to perform the method.

Abstract: A determination is made of a real-time azimuthal position of a notch alignment feature located on a support surface of a substrate holder relative to a fixed reference ray extending perpendicularly away from a rotational axis of the substrate holder as the substrate holder rotates about the rotational axis. A determination is made of an approach initiation azimuthal position of the notch alignment feature relative to the fixed reference ray at which vertical movement of the substrate holder should initiate in order to have the notch alignment feature located at a prescribed azimuthal position relative to the fixed reference ray when the substrate holder reaches a prescribed vertical position. A determination is made of a time delay required to have the notch alignment feature located at the approach initiation azimuthal position. Vertical movement of the substrate holder is initiated in accordance with the determined time delay.

Abstract: The present system comprises a pressure generator, an oscillator, sensors, and computer processors. The pressure generator generates a pressurized flow of breathable gas for delivery to the airway of a subject. The oscillator causes high frequency pressure level oscillations in the pressurized flow of breathable gas. The sensors generate output signals conveying information related to one or more parameters of the gas. The computer processors receive a base expiratory pressure level and a base inspiratory pressure level and control the pressure generator and the oscillator to generate the pressurized flow of breathable gas such that during exhalation the pressure level of the pressurized flow of breathable gas oscillates from or about the base expiratory pressure level and during inhalation the pressure level of the pressurized flow of breathable gas oscillates from or about the base inspiratory pressure level.

Abstract: A determination is made of a real-time azimuthal position of a notch alignment feature located on a support surface of a substrate holder relative to a fixed reference ray extending perpendicularly away from a rotational axis of the substrate holder as the substrate holder rotates about the rotational axis. A determination is made of an approach initiation azimuthal position of the notch alignment feature relative to the fixed reference ray at which vertical movement of the substrate holder should initiate in order to have the notch alignment feature located at a prescribed azimuthal position relative to the fixed reference ray when the substrate holder reaches a prescribed vertical position. A determination is made of a time delay required to have the notch alignment feature located at the approach initiation azimuthal position. Vertical movement of the substrate holder is initiated in accordance with the determined time delay.

Abstract: A method for operating a system configured to consume a fluid, such as engine fuel, having at least two flowmeters is provided. The method includes the step of recirculating a fluid in a closed loop having a supply-side flowmeter and return-side flowmeter, such that substantially no fluid is consumed. Fluid flow is measured in the supply-side flowmeter and the return-side flowmeter. Fluid flow measurements are compared between the supply-side flowmeter and return-side flowmeter, and a first differential zero value based on the difference in the fluid flow measurements between the supply-side flowmeter and return-side flowmeter is determined. A first temperature sensor signal value is received and is associated with the first differential zero value. The first differential zero value associated with the first temperature sensor signal value is stored in a meter electronics.

Abstract: The present disclosure pertains to a system and method for controlling insufflation pressure during inexsufflation of a subject. The system inexsufflates the subject such that tidal flow and/or tidal volume are monitored during insufflation, and insufflation pressure is adjusted to maintain the flow rate of the pressurized flow of breathable gas until a target tidal volume is reached for the insufflation. When the target tidal volume has substantially been reached, the system is causes gas to be evacuated from the airway of the subject. This may provide for more precise, customized therapy for the subject than is provided by conventional inexsufflation systems in which inspiratory flow may not be monitored and/or controlled. In one embodiment, the system comprises one or more of a pressure generator, a subject interface, one or more sensors, a processor, a user interface, electronic storage, and/or other components.

Abstract: A fuel control system (300) for fuel consumption calculation for a fuel and water mixture is provided. The fuel control system (300) includes a mixer (330), a fuel source (310) fluidly coupled to the mixer (330), the fuel source (310) being configured to measure a flow of fuel to the mixer (330), a water source (315) fluidly coupled to the mixer (330), the water source (315) being configured to measure a flow of water to the mixer (330), and a mixture flow meter (5) fluidly coupled to the mixer (330). The mixture flow meter (5) is configured to receive and measure properties of a fuel/water mixture from the mixer (330).

Abstract: An automated system and method for assisting in decision making for the treatment of stroke patients is provided, and specifically for assisting a physician whether the patient should be administered a drug or transferred to another hospital to undergo an endovascular thrombectomy procedure. A variety of factors are input into the system with limited human intervention and a tool automatically determines the probability of whether the patient will have a better outcome if transferred or not. The factors include clinical factors, imaging factors and time to transfer factors. The tool includes processes for automatically determining several imaging factors, including the determination of clot length, collateral blood flow, the presence of forward blood flow within and around the clot, and the clot permeability. The tool has capability to continuously update the treatment protocol and other output results using current clinical, health system or other relevant information or feedback.

Abstract: A system for adjusting extrinsic positive end expiratory pressure during an expiratory phase of a ventilator is provided. The system includes a computer system that comprises one or more physical processors programmed with computer program instructions which, when executed cause the computer system to: determine a respiratory reactance from airway flow information of the patient and airway pressure information of the patient, the airway flow information and airway pressure information of the patient being obtained from one or more sensors, and adjust the extrinsic positive end expiratory pressure during the expiratory phase of the ventilator such that the determined respiratory reactance falls within a defined respiratory reactance range.

Abstract: An automated system and method for assisting in decision making for the treatment of stroke patients is provided, and specifically for assisting a physician whether the patient should be administered a drug or transferred to another hospital to undergo an endovascular thrombectomy procedure. A variety of factors are input into the system with limited human intervention and a tool automatically determines the probability of whether the patient will have a better outcome if transferred or not. The factors include clinical factors, imaging factors and time to transfer factors. The tool includes processes for automatically determining several imaging factors, including the determination of clot length, collateral blood flow, the presence of forward blood flow within and around the clot, and the clot permeability. The tool has capability to continuously update the treatment protocol and other output results using current clinical, health system or other relevant information or feedback.