Abstract: An ultrasound diagnostic apparatus to improve picture quality of images by automatically adjusting image parameters, and a control method thereof are provided. The ultrasound diagnostic apparatus includes an image signal processor to perform envelope detection processing on ultrasound image data, and an image parameter processor to calculate a Time Gain Compensation (TGC) parameter from the envelope detection processed ultrasound image data, adjust the envelope detection processed ultrasound image data based on the TGC parameter, and calculate a Dynamic Range (DR) parameter from the envelope detection processed ultrasound image data adjusted based on the TGC parameter to apply the DR parameter to the envelope detection processed ultrasound image data.

Abstract: A method and a target node for preventing collisions between networks communicating based on a carrier sense multiple access/collision avoidance (CSMA/CA) scheme, are provided. The method includes synchronizing an object network with a neighboring network. The method further includes allocating, to the object network, a slot index based on a number of the networks, and a contention window (CW) size. The method further includes setting, for the object network, a back-off counter value based on the CW size. The method further includes reducing the back-off counter value based on a channel state of the object network, and the slot index. The method further includes transmitting data related to the neighboring network based on the back-off counter value.

Abstract: The present invention relates to a process for producing a 3-dimensional structure assembled from nanoparticles by using a mask having a pattern of perforations, which comprises the steps of: in a grounded reactor, placing a mask having a pattern of perforations corresponding to a determined pattern at a certain distance above a substrate to be patterned, and then applying voltage to the substrate to form an electrodynamic focusing lens; and introducing charged nanoparticles into the reactor, the charged particles being guided to the substrate through the pattern of perforations so as to be selectively attached to the substrate with 3-dimensional shape. According to the process of the present invention, a 3-dimensional structure of various shapes can be produced without producing noise pattern, with high accuracy and high efficiency.

Abstract: Disclosed herein is a method of managing the path of an OSEK network. The method of managing the path of an OSEK network includes step S1 at which a message is transferred along nodes of the OSEK network; step S2 at which a failed node at which a network failure has occurred is detected while the message is being transferred at step S1; step S3 at which the failed node of step S2 is eliminated from the overall network; and step S4 at which the message is transferred from a source node that has transferred the message to the failed node of step S2 to a target node to which the failed node will transfer the message by connecting the source node with the target node.

Abstract: Shoulder braces for inhibiting secondary anterior shoulder dislocations that are configured to allow for a wide range of motion for mobility and stabilization, include a brace body with a single arm portion configured to reside about a shoulder of a user and a torso portion, a plurality of shoulder straps extending over the single arm portion shoulder, a substantially rigid thermoplastic insert releasably held by the arm portion of the brace body. The insert can have a user-specific custom shape that substantially conforms to shoulder anatomy of the shoulder of the user. The brace can also include at least one adjustable length laterally extending torso strap attached to the torso portion.

Abstract: A memory structure is provided that controls the activation of error handling bits as a function of operating voltage. In this way, error correction can be used to offset errors when the memory structure is run at low voltage (and frequency). However, negative performance impacts for such error correction, such as additional access latencies, can be avoided when the memory structure is run at higher voltage (and frequency) and memory errors are less likely. In addition, increased latencies due to evaluating error handling bits may be hidden by reading digital data bits from the memory structures speculatively and assuming no errors. Also, certain portions of memory structures may have larger cells, and therefore larger areas, than other portions, which may provide not only higher reliability at low operating voltages, but also faster operation with reduced latency.

Abstract: A method for treating a patient suffering from a condition with an active compound comprising the steps of (a) treating the patient intranasally with an effective amount of MMP-9 or a functionally equivalent fragment, wherein the tight junctions of the patient's nasal epithelial cells are modulated or wherein the basal lamina of the patient is partially digested and type IV collagen of the patient is degraded or wherein access to the patient's perineural, perivascular, or lymphatic compartment spaces is facilitated and (b) treating the patient intranasally with an active compound is disclosed.

Abstract: A method for creating a nanoimprint lithography template includes exposing (600) a mass transport layer of material adjacent to a support substrate to electromagnetic radiation in a predetermined pattern to form a nanoimprint lithography template in the mass transport layer.

Abstract: Disclosed is an economic method for concentrating virus and detecting virus, such that virus in a sample solution having low virus concentration can be concentrated with high efficiency within a short time. Particularly, the method comprising the steps of: (A) adding Concanavalin A (Con A) to a sample solution containing a virus, and reacting the added Concanavalin A with the virus in the sample solution to form a virus-Concanavalin A conjugate; and (B) separating the virus-Concanavalin A conjugate from the sample solution.

Abstract: Systems and methods for determining a safety level of a network vulnerable to attack from at least one origin to at least one target are described. Machines, components, and vulnerabilities in a network may be associated to one another. Degrees of similarity among the vulnerabilities may be determined and subsets of vulnerabilities may be grouped based on their determined degrees of similarity to one another. This data may be used to generate an attack graph describing exploitation of vulnerabilities and grouped vulnerabilities and defining vulnerability exploit condition relationships between at least one origin and at least one target. The attack graph may be analyzed using a k-zero day metric function to determine a safety level.

Abstract: A method for replicating and amplifying a target nucleic acid sequence is described. A method of the invention involves the formation of a recombination intermediate without the prior denaturing of a nucleic acid duplex through the use of a recombination factor. The recombination intermediate is treated with a high fidelity polymerase to permit the replication and amplification of the target nucleic acid sequence. In preferred embodiments, the polymerase comprises a polymerase holoenzyme. In further preferred embodiments, the recombination factor is bacteriophage T4 UvsX protein or homologs from other species, and the polymerase holoenzyme comprises a polymerase enzyme, a clamp protein and a clamp loader protein, derived from viral, bacteriophage, prokaryotic, archaebacterial, or eukaryotic systems.

Abstract: Provided is a method for managing a group key in a key distribution center. The method includes: receiving a key request from a mobile device; generating a private key for the mobile device using information about a withdrawal time included in the key request; generating a public key and a verification key for the mobile device; and transmitting at least one key including the generated key to the mobile device.

Abstract: The present disclosure describes cyclized peptides that inhibit A? toxicity and therefore can be used as therapeutic agents to treat Alzheimer's Disease.

Abstract: Disclosed are tyrosine-modified rAAV vectors, as well as infectious virions, compositions, and pharmaceutical formulations that comprise them. Also disclosed are methods of preparing and methods for using the disclosed tyrosine-phosphorylated capsid protein mutant rAAV vectors in a variety of diagnostic and therapeutic applications including in vivo and ex vivo gene therapy, and large-scale production of rAAV vectors.

Abstract: A dynamic spinal stabilization device for the treatment of high-grade spinal disorders is disclosed herein. The dynamic spinal stabilization device includes two or more screw assemblies, each of which include a pedicle screw and a head socket containing a curved internal track that limits the range of motion and center of rotation of the spinal segments stabilized using the device to the physiological levels of a nondegraded spinal segment.

Abstract: A pre-loaded delivery device that facilitates accurate placement of a stent graft assembly in the aorta is disclosed. A stent graft is carried on the delivery device and held in a pre-deployment configuration by a sheath. A split in the sheath facilitates the pre-cannulation of one or more branch arteries extending from the aorta before the stent graft is fully released in the aorta. The stent graft comprises a tubular body having at least one scalloped fenestration formed in one end of the graft material and at least one fenestration formed in the graft material of the main tubular body. A helical internal side branch extends from the fenestration within the lumen of the main tubular body. The helical side branch is configured to curve at least partially around the scalloped fenestration. The assembly further comprises a connection stent graft extending from the fenestration into a branch vessel.

Abstract: The invention provides mechanically activated metal fuels for energetic material applications. An exemplary embodiment involves mechanically treating micrometer-sized particles of at least one metal with particles of at least one fluorocarbon to form composite particles containing the at least one metal and the at least one fluorocarbon.

Abstract: The present invention relates to a transportation apparatus for patients, which is a transportation apparatus that transfers and moves a patient that is on a main body frame in which the legs thereof are mounted with moving wheels. The present invention includes: a sliding plate that is moved to slide to both sides along the widthwise direction, by a sliding and moving means, on the upper surface of the main body frame; a transport conveyor that is coupled to the upper portion of the sliding plate so as to be moved to slide with the sliding plate, and has a conveyor belt which rotate in the forward direction or reverse direction by a rotating and moving means, after the movement; and an operation unit that is disposed on the front surface of the main body frame in the lengthwise direction so as to operate the sliding plate and the transport conveyor by means of the sliding and moving means and the rotating and moving means.

Abstract: The present invention relates to a composition for treating or preventing neurodegenerative brain diseases comprising a black bean extract, and more particularly, to a composition for treating or preventing neurodegenerative brain diseases comprising a black bean extract or a fraction thereof, which comprises 15-25 wt % of delphinidin-3-glucoside, 65-80 wt % of cyanidin-3-glucoside and 5-10 wt % of petunidin-3-glucoside, a functional food composition for enhancing brain or cognitive function comprising the black bean extract or a fraction thereof, and a method for preparing the composition.

Abstract: Provided are graphene transistors having a tunable barrier. The graphene transistor includes a semiconductor substrate, an insulating thin film disposed on the semiconductor substrate, a graphene layer on the insulating thin film, a first electrode connected to an end of the graphene layer, a second electrode that is separate from an other end of the graphene layer and contacts the semiconductor substrate, a gate insulating layer covering the graphene layer, and a gate electrode on the gate insulating layer, wherein an energy barrier is formed between the semiconductor substrate and the graphene layer.