Abstract: Technologies are described herein for a drag recovery scheme. In various examples, a recovery engine is placed within a vortex flow of air caused by the impingement of air upon a nacelle of a main engine. The propeller of the recovery engine can use the vortex flow of air to provide additional thrust the aircraft, thus reducing the load on the main engines or providing an increased velocity.

Abstract: Analytics are used for live streaming based on analysis within a shared digital environment. An interactive digital environment is accessed, where the interactive digital environment is a shared digital environment for a plurality of participants. The participants include presenters and viewers. A plurality of images is obtained from a first set of participants within the plurality of participants involved in the interactive digital environment. Cognitive state content is analyzed within the plurality of images for the first set of participants within the plurality of participants. Results of the analyzing cognitive state content are provided to a second set of participants within the plurality of participants. The obtaining and the analyzing are accomplished on a device local to a participant such that images of the first set of participants are not transmitted to a non-local device. The analyzing cognitive state content is augmented with evaluation of audio information.

Abstract: Methods and compositions for increasing muscle regeneration and for preventing or treating diseases, disorders or conditions associated with neuromuscular dysfunction, are provided herein.

Abstract: Data on a user interacting with a media presentation is collected at a client device. The data includes facial image data of the user. The facial image data is analyzed to extract cognitive state content of the user. One or more emotional intensity metrics are generated. The metrics are based on the cognitive state content. The media presentation is manipulated, based on the emotional intensity metrics and the cognitive state content. An engagement score for the media presentation is provided. The engagement score is based on the emotional intensity metric. A facial expression metric and a cognitive state metric are generated for the user. The manipulating includes optimization of the previously viewed media presentation. The optimization changes various aspects of the media presentation, including the length of different portions of the media presentation, the overall length of the media presentation, character selection, music selection, advertisement placement, and brand reveal time.

Abstract: Systems and methods are provided for perioperative care in a medical facility. In an example, a system includes a display and a computing device operably coupled to the display and storing instructions executable to output, to the display, a graphical user interface (GUI) that includes real-time medical device data of a patient, at least some of the real-time medical device data displayed via the GUI as a plurality of patient monitoring parameter tiles, the GUI including a risk score indicative of a relative likelihood that the patient will exhibit a condition within a period of time, and responsive to a user input, display, on the GUI, a set of trend lines each showing values for a respective patient monitoring parameter over a time range, each trend line of the set of trend lines selected based on a contribution of each respective patient monitoring parameter to the risk score.

Abstract: Systems and methods are provided herein for remotely controlling a life-critical medical device. In one example, a system includes a life-critical medical device communicatively coupled to a remote device and configured to supply a medical therapy to a patient, the life-critical medical device including a display and memory storing instructions executable to output, to the display, a graphical user interface (GUI) that displays a plurality of real-time machine settings of the life-critical medical device, responsive to a first user input, display, via the GUI, a remote control panel including a session code usable to authenticate the remote device, and responsive to receiving an indication from an access server that the remote device has been authenticated, display, on the GUI, a notification indicating that the life-critical medical device is currently controlled by the remote device.

Abstract: In an example, a system includes a computing device storing instructions executable to: receive an insight defined by a user, the insight dictating that a notification be output when a condition and a scope of the condition are met, the condition and the scope defined by the user; receive real-time medical device data determined from output from a plurality of medical devices monitoring a plurality of patients; determine if a set of values of one or more patient monitoring parameters of the medical device data meet the condition and the scope, and if so, output the notification for display on a display operably coupled to a first care provider device associated with the user; and responsive to a request from the user, adjust a privacy setting of the insight to allow the insight to be distributed to one or more additional care provider devices associated with other users.

Abstract: In an example, a system includes a computing device storing instructions executable to: receive an insight defined by a user, the insight dictating that a notification be output when a condition and a scope of the condition are met, the condition and the scope defined by the user; receive real-time medical device data determined from output from a plurality of medical devices monitoring a plurality of patients; determine if a set of values of one or more patient monitoring parameters of the medical device data meet the condition and the scope, and if so, output the notification for display on a display operably coupled to a first care provider device associated with the user; and responsive to a request from the user, adjust a privacy setting of the insight to allow the insight to be distributed to one or more additional care provider devices associated with other users.

Abstract: A method of ventilator control that includes receiving machine data from a mechanical ventilator and detecting one or more clinical events in the received machine data. The method further includes evaluating the machine data within the detected one or more clinical events for compliance with lung protective ventilation (LPV) recommendations. The method further includes at least one of producing a visual indication or a graphical display of the evaluated compliance with the LPV recommendations and controlling the mechanical ventilator based on the evaluated compliance with the LPV recommendations.

Abstract: In an example, a system includes a computing device storing instructions executable to: receive an insight defined by a user, the insight dictating that a notification be output when a condition and a scope of the condition are met, the condition and the scope defined by the user; receive real-time medical device data determined from output from a plurality of medical devices monitoring a plurality of patients; determine if a set of values of one or more patient monitoring parameters of the medical device data meet the condition and the scope, and if so, output the notification for display on a display operably coupled to a first care provider device associated with the user; and responsive to a request from the user, adjust a privacy setting of the insight to allow the insight to be distributed to one or more additional care provider devices associated with other users.

Abstract: Methods and compositions for increasing neurogenesis and for preventing or treating diseases, disorders or conditions associated with neurodegeneration, are provided herein.

Abstract: Systems and methods for imaging and image-based analysis of test devices can include a background device for a lateral flow assay test strip. In one aspect, the background device can include a test strip portion sized and shaped to guide placement, on the background device, of the lateral flow assay test strip; a background portion at least partially surrounding the test strip portion; and one or more features of the background portion. The one or more features can include line detection fiducials, position fiducials, modulation transfer function fiducials, motion blur detection fiducials, and/or RGB balanced areas for evaluation of lighting conditions.

Abstract: A method of manufacturing a lash adjuster body for use in a lash adjuster assembly can include forming a lash adjuster body to an as-formed condition including an outer cylindrical surface, an inner cylindrical surface leading to a blind bore, an end surface and a leak down portion. The method can also include imparting a wear resistant surface layer to at least the leak down portion of the inner cylindrical surface using ferritic nitrocarburizing (FNC). The lash adjuster body is upset at the end surface thereby forming at least one overlap portion that overlaps an opening to the blind bore.

Abstract: A system for monitoring room use in a medical facility. The system includes medical devices having sensors that produce machine data corresponding to operation of that medical device. A central processing module analyzes the machine data to identify portions corresponding to clinical cases via at least one of: detecting changes in operational status within the medical devices, detecting changes to devices settings within the medical devices, and detecting a delivery or consumption of anesthetic agent by the medical devices. The central processing module further analyzes the identified portions of the machine data corresponding to the clinical cases to identify procedural events, then automatically determines a current use status for the monitored rooms based on the procedural events identified. A display device communicates with the central processing module and displays the current use status determined for each of the monitored rooms.

Abstract: A method of manufacturing a lash adjuster body for use in a lash adjuster assembly can include forming a lash adjuster body to an as-formed condition including an outer cylindrical surface, an inner cylindrical surface leading to a blind bore, an end surface and a leak down portion. The method can also include imparting a wear resistant surface layer to at least the leak down portion of the inner cylindrical surface using ferritic nitrocarburizing (FNC). The lash adjuster body is upset at the end surface thereby forming at least one overlap portion that overlaps an opening to the blind bore.

Abstract: In an example, a system includes a computing device storing instructions executable to: receive an insight defined by a user, the insight dictating that a notification be output when a condition and a scope of the condition are met, the condition and the scope defined by the user; receive real-time medical device data determined from output from a plurality of medical devices monitoring a plurality of patients; determine if a set of values of one or more patient monitoring parameters of the medical device data meet the condition and the scope, and if so, output the notification for display on a display operably coupled to a first care provider device associated with the user; and responsive to a request from the user, adjust a privacy setting of the insight to allow the insight to be distributed to one or more additional care provider devices associated with other users.

Abstract: Systems and methods are provided for perioperative care in a medical facility. In an example, a system includes a display and a computing device operably coupled to the display and storing instructions executable to output, to the display, a graphical user interface (GUI) that includes real-time medical device data of a patient, at least some of the real-time medical device data displayed via the GUI as a plurality of patient monitoring parameter tiles, the GUI including a risk score indicative of a relative likelihood that the patient will exhibit a condition within a period of time, and responsive to a user input, display, on the GUI, a set of trend lines each showing values for a respective patient monitoring parameter over a time range, each trend line of the set of trend lines selected based on a contribution of each respective patient monitoring parameter to the risk score.

Abstract: Systems and methods are provided for perioperative care in a medical facility. In an example, a system includes a display and a computing device operably coupled to the display and storing instructions executable to output, to the display, a graphical user interface (GUI) that includes real-time medical device data determined from output of one or more medical devices each monitoring a patient, and where at least some of the real-time medical device data displayed via the GUI is displayed as a plurality of patient monitoring parameter tiles, each patient monitoring parameter tile showing a most-recently determined value or a trend for that patient monitoring parameter, the plurality of patient monitoring parameter tiles arranged according to a first layout; and responsive to a user action, adjust one or more patient monitoring parameter tiles of the plurality of patient monitoring parameter tiles to form a second layout.

Abstract: Systems and methods are provided for perioperative care in a medical facility. In an example, a system includes a display and a computing device operably coupled to the display and storing instructions executable to output, to the display, a graphical user interface (GUI) that includes a plurality of trend lines each showing values for a respective patient monitoring parameter over a first time range, the plurality of trend lines time-aligned and vertically stacked relative to each other, responsive to a first user input, adjust each of the plurality of trend lines to show values for the respective patient monitoring parameter over a second time range, and responsive to a second user input, display, on the GUI, an overlay that shows a relative change in each patient monitoring parameter over a specified time duration.