Abstract: An ultrasound system is disclosed. Embodiments in accordance with the present invention include a transducer configured to acquire pulse-echo data at each transmit frequency bandwidth of interest. In addition, a bandpass filter is configured to receive a signal of the pulse-echo data, wherein the signal is bandpass-filtered over a plurality of frequencies. Further, a processor is configured to calculate a spatial coherence of the bandpass-filtered signal. The spatial coherence of the signal is calculated in a spatial domain or a frequency domain. The spatial coherence is used to predict target conspicuity. The processor selects a preferred frequency based on and, preferably, to realize, the target conspicuity.

Abstract: We describe a microfluidic structure for spacing out droplets, the structure comprising: a main channel for guiding droplets in a spacing fluid; a first inlet for introducing droplets into the main channel; and a second inlet for introducing a spacing fluid into the main channel, wherein a cross-sectional area of the main channel decreases downstream from the first inlet. We also describe a method of spacing out droplets using a microfluidic structure.

Abstract: A computing device, a non-transitory computer readable storage medium, and a method are provided for automatically recreating lost storage volumes. A volume command including volume metadata associated with a storage volume of an SCM storage device is received. The volume metadata is stored at another storage device that is less volatile than the SCM storage device. The storage volume is configured in accordance with the volume command including forwarding the volume command to an SCM device driver. A notification of a persistence loss at the SCM storage device is received subsequent to forwarding the volume command. The volume metadata is retrieved from the other storage device subsequent to receiving notification of the persistence loss. The storage volume is automatically re-configured in accordance with the volume command including submitting the retrieved volume metadata to the SCM device driver.

Abstract: Medical device data manager configuration methods and systems including a medical device, a smart mobile device including a camera, a processor, a memory communicatively coupled to the processor, and machine readable instructions stored in the memory that may cause a system to perform at least the following when executed by the processor: use the camera of the smart mobile device to capture an image of the medical device; apply an identification algorithm to the image of the medical device; identify the medical device as an identified medical device based on the image of the medical device and the identification algorithm; and automatically configure a software application tool on the smart mobile device to retrieve data associated with one or more requirements of the identified medical device.

Abstract: Structural health monitoring (SHM) is essential but can be expensive to perform. In an embodiment, a method includes sensing vibrations at a plurality of locations of a structure by a plurality of time-synchronized sensors. The method further includes determining a first set of dependencies of all sensors of the time-synchronized sensors at a first sample time to any sensors of a second sample time, and determining a second set of dependencies of all sensors of the time-synchronized sensors at the second sample time to any sensors of a third sample time. The second sample time is later than the first sample time, and the third sample time is later than the second sample time. The method then determines whether the structure has changed if the first set of dependencies is different from the second set of dependencies. Therefore, automated SHM can ensure safety at a lower cost to building owners.

Abstract: An ultrasound system is disclosed. Embodiments in accordance with the present invention include a transducer configured to acquire pulse-echo data at each transmit frequency bandwidth of interest. In addition, a bandpass filter is configured to receive a signal of the pulse-echo data, wherein the signal is bandpass-filtered over a plurality of frequencies. Further, a processor is configured to calculate a spatial coherence of the bandpass-filtered signal. The spatial coherence of the signal is calculated in a spatial domain or a frequency domain. The spatial coherence is used to predict target conspicuity. The processor selects a preferred frequency based on and, preferably, to realize, the target conspicuity.

Abstract: The present invention relates to a solid composition and an aqueous dispersion comprising nanoparticles of the anti-retroviral drug lopinavir. The solid composition and aqueous dispersion additionally comprise a mixture of a hydrophilic polymer and a surfactant. The surfactant is selected from vitamin-E-polyethylene glycol-succinate (Vit-E-PEG-succinate), a polyoxyethylene sorbitan fatty acid ester, N-alkyldimethylbenzylammonium chloride, sodium deoxycholate, dioctyl sodium sulfosuccinate, polyethyleneglycol-12-hydroxystearate, polyvinyl alcohol (PVA), and a block copolymer of polyoxyethylene and polyoxypropylene, or a combination thereof. The hydrophilic polymer is suitably selected from polyvinyl alcohol (PVA), a polyvinyl alcohol-polyethylene glycol graft copolymer, a block copolymer of polyoxyethylene and polyoxypropylene, polyethylene glycol, hydroxypropyl methyl cellulose (HPMC), and polyvinylpyrrolidone, or a combination thereof.

Abstract: The present invention provides a composition and an antiviral drug preparation, each comprising at least one water-insoluble antiviral drug and at least one water-soluble carrier material, wherein the water-insoluble antiviral drug is dispersed through the water-soluble carrier material in nano-disperse form. The present invention further provides processes for preparing the compositions and drug preparations, and also aqueous nano-dispersions obtained by combining water and the compositions.

Abstract: There is disclosed apparatus and methods for providing a reserve power source for a ventricular assist device. In an embodiment, the apparatus includes a primary power source for powering the device, and a controller housing having a reserve battery for powering the device when the primary power source provides inadequate power, and the controller housing configured for use externally of the patient with a percutaneous cable to the device. In another embodiment, a method includes powering the device with a primary power source, monitoring power provided to the device, powering the device when the power is monitored as inadequate to the device with a reserve power source disposed within a controller housing, the device disposed subcutaneously within a patient, the controller housing disposed externally of the patient, and the device and the controller housing connected by a percutaneous cable. Other embodiments are also disclosed.

Abstract: Medical device data manager configuration methods and systems including a medical device, a smart mobile device including a camera, a processor, a memory communicatively coupled to the processor, and machine readable instructions stored in the memory that may cause a system to perform at least the following when executed by the processor: use the camera of the smart mobile device to capture an image of the medical device; apply an identification algorithm to the image of the medical device; identify the medical device as an identified medical device based on the image of the medical device and the identification algorithm; and automatically configure a software application tool on the smart mobile device to retrieve data associated with one or more requirements of the identified medical device.

Abstract: Medical device alarm systems and methods of use including a medical device, a processor, a memory communicatively coupled to the processor, and machine readable instructions stored in the memory may perform at least the following when the instructions are executed by the processor: detect a predefined medical device condition associated with the medical device to determine a detected predefined medical device condition, and generate a high frequency sound alarm based on the detected predefined medical device condition. The high frequency sound alarm may be configured to be tailored to a living entity and be in an upper sound register such that the high frequency sound alarm is configured to alert the living entity capable of hearing the upper sound register of the detected predefined medical device condition.

Abstract: The present invention provides system and method, including computer programs encoded on non-transitory computer storage media, for dynamic creation of priority transit, wherein one transiting vehicle has priority over another transiting vehicle, or plurality of vehicles, the system comprising input from a plurality of navigation devices, and a server, or distributed computing platform, to receive from the plurality of navigation devices a periodic time series of location points, and the dynamic creation of an agreement, or Ricardian contract, for priority traffic preference between parties while in transit wherein the first, or priority requesting, party exchanges credits or tokens of value to another, or yielding, party in exchange for transit preference and priority.

Abstract: There is disclosed apparatus and methods for providing a reserve power source for a ventricular assist device. In an embodiment, the apparatus includes a primary power source for powering the device, and a controller housing having a reserve battery for powering the device when the primary power source provides inadequate power, and the controller housing configured for use externally of the patient with a percutaneous cable to the device. In another embodiment, a method includes powering the device with a primary power source, monitoring power provided to the device, powering the device when the power is monitored as inadequate to the device with a reserve power source disposed within a controller housing, the device disposed subcutaneously within a patient, the controller housing disposed externally of the patient, and the device and the controller housing connected by a percutaneous cable. Other embodiments are also disclosed.

Abstract: Systems and methods for providing a user interface for searching, browsing, and ordering overhead (e.g. aircraft or satellite) imagery are provided. The user interface provides a map and search bar for searching and browsing images. Images may be presented to a user based on a selected and/or displayed geographic region of interest. Browsing to a different geographic region of interest may dynamically and automatically update the images presented. The user interface allows the user to select an image for viewing and/or purchase. Selection of an image overlays the image on the map, aligned with the geographic region which the image captures. Closing the selected image re-centers and re-zooms to the original display. Presented images can be filtered based on several criteria. Images can include still images and/or videos.

Abstract: There is disclosed apparatus and methods for providing a reserve power source for a ventricular assist device. In an embodiment, the apparatus includes a primary power source for powering the device, and a controller housing having a reserve battery for powering the device when the primary power source provides inadequate power, and the controller housing configured for use externally of the patient with a percutaneous cable to the device. In another embodiment, a method includes powering the device with a primary power source, monitoring power provided to the device, powering the device when the power is monitored as inadequate to the device with a reserve power source disposed within a controller housing, the device disposed subcutaneously within a patient, the controller housing disposed externally of the patient, and the device and the controller housing connected by a percutaneous cable. Other embodiments are also disclosed.

Abstract: A system for configuring an insulin pump comprising: a computing device configured to receive a source device and a destination device; the source device being configured to communicate with the computing device, wherein the source device includes a source configuration file comprising a plurality of configurable source parameters; the destination device being configured to communicate with the computing device, wherein the destination device includes a destination configuration file comprising a plurality of configurable destination parameters; and the computing device being configured to determine whether a parameter mismatch occurred based on a comparison between the source configuration file and the destination configuration file; and to copies values associated with each of the plurality of source parameters to each of the plurality of destination parameters based on i) the determination of whether a parameter mismatch occurred and ii) the comparison between the source configuration file and the destinat

Abstract: The present invention provides a composition and an antiviral drug preparation, each comprising at least one water-insoluble antiviral drug and at least one water-soluble carrier material, wherein the water-insoluble antiviral drug is dispersed through the water-soluble carrier material in nano-disperse form. The present invention further provides processes for preparing the compositions and drug preparations, and also aqueous nano-dispersions obtained by combining water and the compositions.

Abstract: The present invention provides a composition and an antiviral drug preparation, each comprising at least one water-insoluble antiviral drug and at least one water-soluble carrier material, wherein the water-insoluble antiviral drug is dispersed through the water-soluble carrier material in nano-disperse form. The present invention further provides processes for preparing the compositions and drug preparations, and also aqueous nano-dispersions obtained by combining water and the compositions.

Abstract: Structural health monitoring (SHM) is essential but can be expensive to perform. In an embodiment, a method includes sensing vibrations at a plurality of locations of a structure by a plurality of time-synchronized sensors. The method further includes determining a first set of dependencies of all sensors of the time-synchronized sensors at a first sample time to any sensors of a second sample time, and determining a second set of dependencies of all sensors of the time-synchronized sensors at the second sample time to any sensors of a third sample time. The second sample time is later than the first sample time, and the third sample time is later than the second sample time. The method then determines whether the structure has changed if the first set of dependencies is different from the second set of dependencies. Therefore, automated SHM can ensure safety at a lower cost to building owners.

Abstract: The invention provides a method for the preparation of a carrier liquid which comprises the steps of: (I) preparing a single phase solution comprising: (a) a solvent or a mixture of miscible solvents, (b) a liquid carrier material, which is soluble in solvent (a), and (c) a dopant material which is also soluble in solvent (a); (II) cooling (preferably freezing) the single phase solution produced in step (I) to a temperature at which at least both the solvent (a) and carrier material (b) become solid; and (III) removing solid solvent (a) from the cooled (frozen) single phase solution in vapor form, such that the remaining cooled (frozen) carrier material (b) and dopant material (c) are returned to ambient temperature thus providing a product of liquid carrier material (b) having dopant material (c) dispersed therein.