Krogh, US
Bruce Krogh, Pittsburgh, PA US
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20110302286 | MANAGING COOLING DEVICES AND COMPUTING NODES IN AN INFRASTRUCTURE - A system for managing computing nodes and cooling devices cooling the computing nodes in an infrastructure includes one or more managers. The one or more managers receive a service request for a workload to be run on one or more of the computing nodes. Candidate workload placements for placing the workload on the one or more computing nodes are determined. A first cost associated with each candidate workload placements using a computational network model. A second cost associated with the cooling devices for each candidate workload placement is determined using a thermal network model. A cost function is minimized. The cost function determines an economic cost of operating the infrastructure while running the requested workload and is based upon the first cost, the second cost. A candidate workload placement is selected from the candidate workload placements based on the minimized cost function. | 12-08-2011 |
Christopher Jurgen Von Krogh, San Jose, CA US
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20130014237 | ONE TIME PASSWORD AUTHENTICATION OF WEBSITES - A method including generating a first and second One Time Password (OTP) token from a shared clock, receiving a third OTP token, and comparing the second and the third OTP tokens. A system including a number generator residing on a first server to generate first and second One Time Password (OTP) tokens from a shared clock, a transmitter residing on the first server to transmit the first and the second OTP tokens, a receiver residing on a second server to receive the first, the second, and a third OTP tokens, and a comparator residing on the second server to compare the second and the third OTP tokens to authenicate an identity of a party who generates the third OTP token. | 01-10-2013 |
20130347093 | TOKEN DEVICE RE-SYNCHRONIZATION THROUGH A NETWORK SOLUTION - A system and method are illustrated as including receiving a request for a current time and transmitting the current time to a password device. The current time is used to synchronize a clock in the password device to reflect the current time of an authentication server. The synchronized clock is used to generate a first token value at the password device. A request for the first token value is received from a server of the site by the authentication server. The server of the site is provided with the first token value. The server of the site sends a list of token values including the first token value to a computing device associated with the password device. The list of token values, presented at the same time on the computing device, are compared to the first token value generated by the password device to determine a matching first token value. | 12-26-2013 |
Duane F. Krogh, Bothell, WA US
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20090020595 | CONTAINER INCLUDING A DECORATIVE FILM AND BLANK FOR MAKING THE SAME - A container constructed from a blank of foldable sheet material. The container includes a decorative film attached to an exterior surface of the container. The container also includes a top wall and an opposing bottom wall, a back wall and an opposing front wall, and a pair of opposing side walls, wherein a first one of the walls and an adjacent second one of the walls includes the decorative film. The decorative film includes a holographic lens pattern thereon. The holographic lens pattern displays an image of an object suspended within the container when both of the first and second walls are viewed together. | 01-22-2009 |
James A. Krogh, Janesville, WI US
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20080250703 | Fuel additive, additive-containing fuel compositions and method of manufacture - The present invention relates to fuel additives, fuel compositions and methods of manufacture in which the additives are provided to impart desired properties to fuels. These properties include, without limitation, reduction of nitrogen oxide and particulate emissions from the exhaust stream of internal combustion engines using the fuels. Preferred embodiments of an additive form of the composition include a nitrogen-containing compound selected from the group consisting of urea, cyanuric acid, triazine, ammonia and mixtures thereof, a carrier blend comprising an alkoxylated alcohol, a polyalkylene glycol ester and an alkanolamide and water. The additive may be provided in a concentrate form by addition of a solvent or may be provided as a final form fuel composition. A method of additive manufacture and is disclosed. | 10-16-2008 |
Ross Krogh, Long Grove, IL US
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20120172800 | INTRAVENOUS PUMPING AIR MANAGEMENT SYSTEMS AND METHODS - An intravenous (“IV”) liquid delivery system includes: an IV pump tubing set; a shuttle pump or membrane pump actuator operable with the IV pump tubing set; upstream and downstream valve actuators operable with the IV pump tubing set; the IV pump tubing set including an air removal device; an air detector configured to sense air in the IV pump tubing set; a control unit configured and arranged to (i) open the upstream valve actuator and close the downstream valve actuator to allow the pump actuator to draw liquid into a pump actuation portion of the IV pump tubing set, and (ii) close the upstream valve actuator and open the downstream valve actuator to allow the pump actuator to push liquid out of the pump actuation portion, the system configured to attempt to remove the air via the air removal device while operating the upstream and downstream valve actuators according to (i) and (ii). | 07-05-2012 |
20140074027 | INTRAVENOUS PUMPING AIR MANAGEMENT SYSTEMS AND METHODS - An intravenous (“IV”) liquid delivery system includes: an IV pump tubing set; a shuttle pump or membrane pump actuator operable with the IV pump tubing set; upstream and downstream valve actuators operable with the IV pump tubing set; the IV pump tubing set including an air removal device; an air detector configured to sense air in the IV pump tubing set; a control unit configured and arranged to (i) open the upstream valve actuator and close the downstream valve actuator to allow the pump actuator to draw liquid into a pump actuation portion of the IV pump tubing set, and (ii) close the upstream valve actuator and open the downstream valve actuator to allow the pump actuator to push liquid out of the pump actuation portion, the system configured to attempt to remove the air via the air removal device while operating the upstream and downstream valve actuators according to (i) and (ii). | 03-13-2014 |
Ross G. Krogh, Long Grove, IL US
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20100010433 | MEDICAL SYSTEM WHICH CONTROLS DELIVERY OF A DRUG - A first medical system includes a controller, a plurality of predetermined patient monitors, and a predetermined drug-delivering medical effector. The controller is adapted to choose different groups of the patient monitors for different medical procedures involving the medical effector. A second medical system includes a controller which is adapted to identify, by querying, connected ones of a multiplicity of medical effectors and connected ones of a plurality of patient monitors and is adapted to control at least one connected medical effector using at least some of the connected patient monitors for a predetermined medical procedure. | 01-14-2010 |
20110092907 | THERAPY MANAGEMENT DEVELOPMENT PLATFORM - A method of providing therapy management development includes providing a therapy management development platform having a plurality of levels of functionality, the platform including a medical device capable of providing therapy management, setting the platform to a first level of access to the functionality relative to the medical device, and modifying the operation of the medical device using the platform. The method also includes receiving an indication of approval to change the level of access to the functionality of the platform to a second level of access, and setting the platform to the second level of access to the functionality of the platform in response to receipt of the indication of approval. The platform is also provided. | 04-21-2011 |
20120150114 | Battery Management System - A battery management system is provided for one or more batteries. The system includes a display unit, and a controller coupled to the display unit and programmed to determine when a healthcare delivery system is coupled to the one or more batteries, to control the display unit to display an initial number corresponding to a time remaining on battery (TROB) when the healthcare delivery system is coupled to the one or more batteries, to determine if the TROB is within a reserve range extending up to a reserve range maximum, the reserve range maximum being less than a maximum TROB, to change the TROB according to an operational state of the healthcare delivery system if the TROB is greater than the reserve range maximum, and to decrease the TROB without regard for the operational state of the healthcare delivery system if the TROB is less than the reserve range maximum. | 06-14-2012 |
20120310204 | Method and System for Alerting as to Potential for Bolus Condition - A method of alerting a user to a potential unintended bolus delivery includes delivering fluid to a patient along a first fluid flow path. The method also includes transmitting a signal prior to initiation of a change in fluid delivery to the patient along a second fluid flow path connected to the first fluid flow path upstream of the patient, and detecting the signal. The method further includes actuating an alarm to alert the user to a potential unintended bolus delivery if the signal is detected. A system for carrying out the method is also provided. | 12-06-2012 |
20130046279 | USER INTERFACE FEATURE FOR DRUG DELIVERY SYSTEM - A medical system includes a monitoring unit and a drug delivery unit. The monitoring unit is operable to monitor at least one physiological parameter of a patient. The drug delivery unit includes an integral volume of a drug. A control logic is in communication with the monitoring unit and the drug delivery unit and is operable to regulate delivery of the drug to the patient from the integral volume, based on data associated with the at least one physiological parameter of the patient, in accordance with a safety shell control algorithm. A user interface feature is operable to receive input indicating administration of an external drug to the patient. The safety shell control algorithm responds to inputs received through the user interface feature indicating administration of an external drug to the patient, such as by modifying subsequent drug delivery regulation based on the administration of the external drug. | 02-21-2013 |
20130079710 | Therapy Management Development Platform - A therapy management development platform includes a pump controller coupled to an interface module. The interface module includes an interface module controller and a module-sensor input/output interface including at least one standardized input port, output port and power connection. The interface module is also customizably programmed to receive data from a sensor and to provide instructions to the pump controller to vary the operation of a pump coupled thereto according to one of a plurality of levels of functionality. Upon receipt of an indication of approval from a remote computer to change the level of access to the functionality of the platform, the interface module may be customizably programmed to receive different data from the sensor, to provide different instructions to the pump controller, or both, the approval corresponding to a stage in testing of a medical device. | 03-28-2013 |
20150073379 | BATTERY MANAGEMENT SYSTEM - A battery management method for one or more batteries in a healthcare delivery system is provided. The method includes determining when the healthcare delivery system is drawing power from the one or more batteries and controlling a display unit coupled to the controller to display an initial number corresponding to a time remaining on battery (TROB) when the healthcare delivery system is drawing power from the one or more batteries. The method also includes determining if the TROB is within a reserve range extending up to a reserve range maximum that is less than a maximum TROB, changing the TROB according to an operational state of the healthcare delivery system if the TROB is greater than the reserve range maximum, and decreasing the TROB to count down the TROB without regard for the operational state of the healthcare delivery system if the TROB is less than the reserve range maximum. | 03-12-2015 |
Ross G. Krogh, Cincinnati, OH US
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20090177146 | APPARATUS AND METHODS FOR CONTROLLING AND AUTOMATING FLUID INFUSION ACTIVITIES - The present invention provides apparatuses and methods to safely and economically deliver infusion fluid to a patient during a medical procedure. The infusion fluid may be a sedative, analgesic, amnestic or other pharmaceutical agent (drug) for alleviating a patient's pain and anxiety before, during and/or after a medical or surgical procedure. In general the apparatus comprises a microprocessor-based controller that receives inputs from a plurality of physiological monitors attached to a patient. The system controller processes the data from the physiological monitors and based upon a fluid infusion algorithm delivers infusion fluid to a patient. The physiological monitors monitor the patient throughout the course of the procedure and depending upon the health of the patient, drug delivery may be adjusted to optimize the procedure while ensuring the patient's health and pain level are maintained. | 07-09-2009 |
20090292179 | MEDICAL SYSTEM HAVING A MEDICAL UNIT AND A DISPLAY MONITOR - A medical system includes a display monitor and a medical unit. The medical unit is adapted to measure a physiological parameter of a patient. The medical unit is adapted to wirelessly connect to the display monitor, wherein the display monitor is adapted to display the physiological parameter. In one implementation of the medical system, the medical unit is adapted to automatically wirelessly connect to the display monitor when the medical unit is brought into proximity with the display monitor. In one illustration of the medical system, the physiological parameter is a pulse rate of the patient. | 11-26-2009 |
Ryan M. Krogh, Cedar Falls, IA US
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20120261202 | TRACTOR HOOD AIRFLOW SYSTEM - A vehicle engine enclosure includes a tractor frame which supports an engine. A cooling system is mounted on the frame. The cooling system has a housing which surrounds cooling components. A hood is mounted on the frame and encloses the engine and the cooling system. The hood includes a top panel and left and right hood side panels. The top panel has outlet vents formed therein. A pair of left and right side plates are mounted on the frame. A rear end plate covers a rear end of the hood. A plurality of seals are placed between these components so that a duct is formed which collects hot air and moves it vertically through the vents to prevent re-ingesting of the hot air. | 10-18-2012 |
Steven B. Krogh, Issaquah, WA US
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20080294307 | Aircraft Guidance Using Localizer Capture Criteria for Rectilinear Displacement Data - Systems and methods for aircraft guidance using a localizer capture criteria for rectilinear displacement data are disclosed. In one embodiment, the method includes determining a rectilinear deviation D between a current aircraft location and a final defined path (FDP) of an aircraft and determining a location at which the aircraft should begin a reposition maneuver based on the rectilinear deviation D. The method starts a reposition maneuver of the aircraft at a location determined based on a relationship between D and characteristics of the aircraft during the reposition maneuver. In some embodiments, the characteristics of the aircraft may include a velocity of the aircraft with respect to ground, an aircraft track angle, a heading of the FDP of the aircraft, a maximum allowed bank angle of the aircraft during a reposition maneuver, and a time allowance for aircraft rollup and rollout. | 11-27-2008 |
20100017053 | Consistent Localizer Captures - Systems and methods for performing localizer capture maneuvers are disclosed. In one embodiment, a method includes determining at least one instrument landing system (ILS) threshold of an aircraft, and establishing at least one final approach course (FAC) deviation threshold for the aircraft. The method further includes receiving at least one ILS localizer error, then calculating at least one FAC deviation. The at least one ILS localizer error is compared to the ILS threshold, and the at least one FAC deviation is compared to the FAC threshold. A standard capture maneuver is performed if the at least one ILS localizer error reaches its corresponding ILS threshold prior to the at least one FAC deviation reaching its FAC threshold. However, if the at least one FAC deviation reaches its corresponding FAC threshold prior to the at least one ILS localizer error reaching its corresponding ILS threshold, a modified capture maneuver is performed. | 01-21-2010 |
20130339415 | LATENCY COMPENSATION - Systems and methods for latency compensation are disclosed. In one embodiment, a computer-based system for latency compensation in a dynamic system comprises a processor and logic instructions stored in a tangible computer-readable medium coupled to the processor which, when executed by the processor, configure the processor to receive at least first parameter data from a first sensor and second parameter data from a second sensor, direct the at least first parameter data and the second parameter data into a combining filter, receive additional parameter data about the dynamic system from at least one additional sensor, construct a model of latency effects on the first parameter data and the second parameter data, and use the model of latency effects to compensate for latency-based differences in the first parameter data and the second parameter data. | 12-19-2013 |
Steven Barry Krogh, Issaquah, WA US
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20120248260 | Flight Trajectory Compensation System for Airspeed Variations - A method and apparatus for controlling a flight of an aircraft. An undesired change in an airspeed for the aircraft is identified. A number of commands for a flight control system associated with a wing of the aircraft are identified in response to the undesired change in the airspeed. The number of commands is configured to cause the flight control system to maintain a lift of the aircraft for a desired trajectory. | 10-04-2012 |
20120277933 | Flight Controller Management System with a Backdrive Monitor - A method and apparatus for a monitoring module. The monitoring module is configured to identify a difference between measured position information for a controller and expected position information for the controller. The monitoring module is configured to compare the difference with thresholds for managing an autopilot in a control system of a vehicle to form a comparison. The monitoring module is configured to manage an operation of the autopilot based on the comparison such that the autopilot remains operating when a backdrive system is inoperative and an intentional override of the autopilot is absent. | 11-01-2012 |
20130024052 | SYSTEMS AND METHODS FOR GENERATING A COMMAND TRAJECTORY - A system for use in generating a command trajectory for an aircraft is provided. The system includes a natural frequency determining module configured to determine a closure rate of the aircraft to a selected flight path, compare the closure rate of the aircraft to a threshold closure rate, and calculate a natural frequency based on whether the closure rate is below the threshold closure rate. The system further includes a command processor coupled to the natural frequency determining module and configured to receive the calculated natural frequency from the natural frequency determining module, and generate a command trajectory using the calculated natural frequency. | 01-24-2013 |