Abstract: A computer-implemented method, computer program product and computing system for: acoustically monitoring a medical environment to generate an acoustic signal indicative of audio within the medical environment; processing the acoustic signal to identify one or more audible alarms within the medical environment; categorizing the one or more audible alarms, thus defining categorized alarms; and processing the categorized alarms.

Abstract: A computer-implemented method, computer program product and computing system for: gathering information from a datasource concerning one or more medical professionals within one or more medical institutions, thus defining gathered information; enabling a user to select a viewing lens from a plurality of available viewing lenses through which to display the gathered information, thus defining a selected viewing lens; and rendering at least a portion of the gathered information based, at least in part, upon the selected viewing lens.

Abstract: A computer-implemented method, computer program product and computing system for: gathering information from a datasource concerning one or more organizations, thus defining gathered information; enabling a user to select a viewing lens from a plurality of available viewing lenses through which to display the gathered information, thus defining a selected viewing lens; and rendering at least a portion of the gathered information based, at least in part, upon the selected viewing lens.

Abstract: A computer-implemented method, computer program product and computing system for: defining an incident as the occurrence of a plurality of required alarms; monitoring a plurality of devices to detect the occurrence of alarms, thus defining a plurality of detected alarms; and defining the incident as having occurred if the plurality of detected alarms includes the plurality of required alarms.

Abstract: A computer-implemented method, computer program product and computing system for: interfacing with a plurality of bedside monitoring devices to receive data signals, wherein the data signals have monitoring criteria; and enabling adjustment of one or more of the monitoring criteria.

Abstract: A computer-implemented method, computer program product and computing system for: gathering information from a datasource concerning one or more incidents within one or more medical institutions, thus defining gathered information; enabling a user to select a viewing lens from a plurality of available viewing lenses through which to display the gathered information, thus defining a selected viewing lens; and rendering at least a portion of the gathered information based, at least in part, upon the selected viewing lens.

Abstract: A computer-implemented method, computer program product and computing system for: interfacing with a bedside monitoring device to receive data signals; automatically obtaining patient information from a medical record associated with a patient assigned to the bedside monitoring device; and providing the patient information to the bedside monitoring device.

Abstract: A computer-implemented method, computer program product and computing system for: monitoring a device to receive data signals indicative of the device; and processing the data signals over a defined period of time to automatically define one or more defined signal norms for the data signals.

Abstract: A computer-implemented method, computer program product and computing system for: monitoring a bedside monitoring device to detect the occurrence of alarms, thus defining detected alarms; processing the detected alarms to determine their authenticity; and if a detected alarm is determined to be non-authentic, adjusting one or more monitoring criteria that was instrumental in producing the non-authentic detected alarm.

Abstract: A computer-implemented method, computer program product and computing system for: defining an incident as the occurrence of a plurality of required alarms; defining an event as the occurrence of a plurality of required incidents; monitoring a plurality of devices to detect the occurrence of alarms, thus defining a plurality of detected alarms; and defining the event as having occurred if the plurality of detected alarms includes the plurality of required alarms for each of the plurality of required incidents.

Abstract: The present disclosure describes various aspects of remote presence interfaces (RPIs) for use on portable electronic devices (PEDs) to interface with remote telepresence devices. An RPI may allow a user to interact with a telepresence device, view a live video feed, provide navigational instructions, and/or otherwise interact with the telepresence device. The RPI may allow a user to manually, semi-autonomously, or autonomously control the movement of the telepresence device. One or more panels associated with a video feed, patient data, calendars, date, time, telemetry data, PED data, telepresence device data, healthcare facility information, healthcare practitioner information, menu tabs, settings controls, and/or other features may be utilized via the RPI.

Abstract: The present disclosure describes various aspects of remote presence interfaces (RPIs) for use on portable electronic devices (PEDs) to interface with remote telepresence devices. An RPI may allow a user to interact with a telepresence device, view a live video feed, provide navigational instructions, and/or otherwise interact with the telepresence device. The RPI may allow a user to manually, semi-autonomously, or autonomously control the movement of the telepresence device. One or more panels associated with a video feed, patient data, calendars, date, time, telemetry data, PED data, telepresence device data, healthcare facility information, healthcare practitioner information, menu tabs, settings controls, and/or other features may be utilized via the RPI.

Abstract: The present disclosure describes various aspects of remote presence interfaces (RPIs) for use on portable electronic devices (PEDs) to interface with remote telepresence devices. An RPI may allow a user to interact with a telepresence device, view a live video feed, provide navigational instructions, and/or otherwise interact with the telepresence device. The RPI may allow a user to manually, semi-autonomously, or autonomously control the movement of the telepresence device. One or more panels associated with a video feed, patient data, calendars, date, time, telemetry data, PED data, telepresence device data, healthcare facility information, healthcare practitioner information, menu tabs, settings controls, and/or other features may be utilized via the RPI.

Abstract: A mission pod system for an aircraft set to perform a mission includes a fixed portion that is fixedly secured to an exterior surface of the aircraft. The mission pod system also includes a modular portion that is removably secured to the fixed portion and spaced away from the exterior surface of the aircraft via the fixed portion. The modular portion includes an entirety of mission-specific components.

Abstract: The present disclosure describes various aspects of remote presence interfaces (RPIs) for use on portable electronic devices (PEDs) to interface with remote telepresence devices. An RPI may allow a user to interact with a telepresence device, view a live video feed, provide navigational instructions, and/or otherwise interact with the telepresence device. The RPI may allow a user to manually, semi-autonomously, or autonomously control the movement of the telepresence device. One or more panels associated with a video feed, patient data, calendars, date, time, telemetry data, PED data, telepresence device data, healthcare facility information, healthcare practitioner information, menu tabs, settings controls, and/or other features may be utilized via the RPI.

Abstract: A mission pod system for an aircraft set to perform a mission includes a fixed portion that is fixedly secured to an exterior surface of the aircraft. The mission pod system also includes a modular portion that is removably secured to the fixed portion and spaced away from the exterior surface of the aircraft via the fixed portion. The modular portion includes an entirety of mission-specific components.

Abstract: An operator control unit has a user interface that allows a user to identify a mode of display and interaction that narrows the user's options for his next interaction with the user interface. The user interface utilizes portals to transition between environments such as indoors to outdoors, outdoors to indoors, different rooms of a building, and different floors of a building, the portals representing one or more of stairways and doors, and being used in remote vehicle path planning as waypoints that may require execution of predetermined behaviors.

Abstract: The present disclosure describes various aspects of remote presence interfaces (RPIs) for use on portable electronic devices (PEDs) to interface with remote telepresence devices. An RPI may allow a user to interact with a telepresence device, view a live video feed, provide navigational instructions, and/or otherwise interact with the telepresence device. The RPI may allow a user to manually, semi-autonomously, or autonomously control the movement of the telepresence device. One or more panels associated with a video feed, patient data, calendars, date, time, telemetry data, PED data, telepresence device data, healthcare facility information, healthcare practitioner information, menu tabs, settings controls, and/or other features may be utilized via the RPI.

Abstract: A method for inspecting a laminate structure may include transmitting a lamb wave through a selected portion of the laminate structure from an actuator at a predetermined location on a surface of the laminate structure. The method may also include receiving the transmitted lamb wave at a sensor at another predetermined location on the surface of the laminate structure. The method may additionally include detecting and characterizing an anomaly in the laminate structure based on the received lamb wave.

Abstract: An operator control unit has a user interface that allows a user to identify a mode of display and interaction that narrows the user's options for his next interaction with the user interface. The user interface utilizes portals to transition between environments such as indoors to outdoors, outdoors to indoors, different rooms of a building, and different floors of a building, the portals representing one or more of stairways and doors, and being used in remote vehicle path planning as waypoints that may require execution of predetermined behaviors.