Abstract: The present disclosure provides a surgical instrument comprising an instrument body with a distal end including a working portion, and a proximal end including a handle. The instrument body includes a first arm and a second arm that are pivotable relative to one another. Each of the first arm and the second arm having a handle portion of the handle and a portion of the working portion. And each of the handle portions of the first and second arms being configured to enable a user to control the instrument body and move the portions of the working portion of the first and second arms between opened and closed positions.

Abstract: The present disclosure provides a surgical instrument comprising an instrument body with a distal end including a working portion, and a proximal end including a handle. The instrument body includes a first arm and a second arm that are pivotable relative to one another. Each of the first arm and the second arm having a handle portion of the handle and a portion of the working portion. And each of the handle portions of the first and second arms being configured to enable a user to control the instrument body and move the portions of the working portion of the first and second arms between opened and closed positions.

Abstract: A polynucleotide, encoding an amino acid sequence, encoding an oxidoreductase, that is ?50% identical to an amino acid sequence of SEQ ID NO:1 (Geobacillus sp. PA9), SEQ ID NO:3 (Thermus thermophilus), SEQ ID NO:4 (Streptomyces globisporus), SEQ ID NO:5 (Clostridium aminobutyricum), SEQ ID:6 (Burkholderai cepacia), SEQ ID NO:8 (Oscillatoria sp. PCC 6506), or SEQ ID NO:9 (Paraburkholderia phymatum). The polynucleotide has an amino acid exchange in one or more of positions 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214 of SEQ ID NO:1, or at a corresponding position of the amino acid sequence of SEQ ID NO:3, SEQ ID NO:4, SEQ ID:5, SEQ ID NO:6, SEQ ID NO:8, or SEQ ID NO:9.

Abstract: The present disclosure provides a surgical instrument comprising an instrument body with a distal end including a working portion, and a proximal end including a handle. The instrument body includes a first arm and a second arm that are pivotable relative to one another. Each of the first arm and the second arm having a handle portion of the handle and a portion of the working portion. And each of the handle portions of the first and second arms being configured to enable a user to control the instrument body and move the portions of the working portion of the first and second arms between opened and closed positions.

Abstract: This disclosure is directed to hydrodynamic electric generators, including their structural design, methods of deployment, anchoring systems, drive systems and control systems. The system can be scaled from ones that can be hand carried to large, stationary devices that can generate up to and greater than 20 kw in a current of 3 knots. In a stationary system, the device can be anchored to an underwater floor by an anchoring device supported by four adjustable legs. These legs can eliminate the need for extensive mooring lines, providing the device with a small footprint that is non-hazardous to marine animals or vegetation. Individual components, such as rotors, generators and other mechanical components can be modularly installed for easy removal and servicing without having to disturb the entire system.

Abstract: A direct ion storage (DIS) radiation detector or dosimeter has a design that is easy and low cost to manufacture using semiconductor processing techniques. The detectors include internal communications interfaces so they are easy to read. Different interfaces, including wired, e.g. USB ports, and wireless interfaces, may be used, so that the dosimeters may be read over the internet. The detectors can thus be deployed or used in a variety of detection systems and screening methods, including periodic or single time screening of people, objects, or containers at a location by means of affixed dosimeters; screening of objects, containers or people at a series of locations by means of affixed dosimeters, and surveillance of an area by monitoring moving dosimeters affixed to people or vehicles.

Abstract: A method and apparatus for processing harvested miscanthus or other rhizomes to condition them for replanting to grow miscanthus plants. Quantities of clusters of rhizomes are supplied to a first inclined ramp conveyor, the clusters of rhizomes are caught on a mechanism that pushes the clusters of rhizomes to a location where the clusters of rhizomes encounter obstructers that cooperate with the mechanism to cut and reduce the size of the clusters. The reduced size clusters are vibrated to loosen and separate soil from the reduced size cluster of rhizomes, washed to wash dirt from the clusters, and collected for supply to a planter.

Abstract: In various embodiments, methods, systems, and non-transitory computer-readable media are disclosed that allow developers to dynamically create columns headers using a desktop integration framework. Columns groups can be managed dynamically at runtime based on model-level metadata.

Abstract: In various embodiments, methods, systems, and non-transitory computer-readable media are disclosed that allow a desktop integration framework to optimize retrieval of custom string resources from resource bundles hosted by server computer systems. A client computer that uses a document as a user interface to a web-server application hosted by a server-computer system can determine which custom string resources are to be utilized in the document. The client computer system can request only the custom string resources that are determined to be utilized in the document from the server-computer system in a single request thereby optimizing retrieval without requesting entire resource bundles.

Abstract: A method and apparatus for processing harvested miscanthus or other rhizomes to condition them for replanting to grow miscanthus plants Quantities of clusters of rhizomes are supplied to a first inclined ramp conveyor, the clusters of rhizomes are caught on a mechanism that pushes the clusters of rhizomes to a location where the clusters of rhizomes encounter obstructers that cooperate with the mechanism to cut and reduce the size of the clusters. The reduced size clusters are vibrated to loosen and separate soil from the reduced size cluster of rhizomes, washed to wash dirt from the clusters, and collected for supply to a planter.

Abstract: An apparatus for planting rhizomes includes a chassis having wheels to move in a primary direction over an area in which rhizomes are to be planted, the primary direction defining a forward and aft sense, a hopper on the chassis holds rhizomes to be planted, the hopper having a live bottom mounted to move rhizomes in the forward direction, a kickback bar at a forward side of the hopper lifts rhizomes at a forward face of the hopper, a leveling roller above the live bottom levels the height of rhizomes transported by the live bottom forward of the hopper, a barrel feed at a forward end of the live bottom to pull rhizomes from the live bottom, a accumulator below the barrel feed, a drop zone below the accumulator, and a chute with inner flaps from the drop zone oriented to deposit rhizomes in a furrow.

Abstract: In various embodiments, methods, systems, and non-transitory computer-readable media are disclosed that allow a desktop integration framework to optimize retrieval of custom string resources from resource bundles hosted by server computer systems. A client computer that uses a document as a user interface to a web-server application hosted by a server-computer system can determine which custom string resources are to be utilized in the document. The client computer system can request only the custom string resources that are determined to be utilized in the document from the server-computer system in a single request thereby optimizing retrieval without requesting entire resource bundles.

Abstract: An apparatus for harvesting rhizomes includes a chassis to move in a field. Coulter disks mounted on a forward end of the chassis break up soil on a top surface of the field. Digger blades aft of the coulter disks scoop clusters of rhizomes from the field with adhered soil. An inclined ramp on the chassis has a live bottom that pushes the rhizome clusters up the ramp in the aft direction including upright posts that force the clusters of rhizomes against depending obstructers extending downward from superstructure bars toward the live bottom. As the clusters encounter the obstructers, the clusters are broken to reduce their size and to loosen and separate soil from the rhizomes. A collector aft of the live bottom collects rhizomes falling from an aft end of the inclined ramp.

Abstract: A method and apparatus for processing harvested miscanthus or other rhizomes to condition them for replanting to grow new miscanthus plants are disclosed. Bulk quantities of clusters of rhizomes are supplied to a first inclined ramp conveyor, the clusters of rhizomes are caught on a mechanism that pushes the clusters of rhizomes to a location where the clusters of rhizomes encounter obstructers that cooperate with the mechanism to cut and reduce the size of the clusters. The reduced size clusters are vibrated to loosen and separate soil from the reduced size cluster of rhizomes, washed to wash dirt from the clusters, and collected for supply to a planter.

Abstract: An apparatus for planting rhizomes includes a chassis having wheels to move in a primary direction over an area in which rhizomes are to be planted, the primary direction defining a forward and aft sense, a hopper on the chassis holds rhizomes to be planted, the hopper having a live bottom mounted to move rhizomes in the forward direction, a kickback bar at a forward side of the hopper lifts rhizomes at a forward face of the hopper, a leveling roller above the live bottom levels the height of rhizomes transported by the live bottom forward of the hopper, a barrel feed at a forward end of the live bottom to pull rhizomes from the live bottom, a accumulator below the barrel feed, a drop zone below the accumulator, and a chute with inner flaps from the drop zone oriented to deposit rhizomes in a furrow.

Abstract: In various embodiments, methods, systems, and non-transitory computer-readable media are disclosed that allow developers to dynamically create columns headers using a desktop integration framework. Columns groups can be managed dynamically at runtime based on model-level metadata.

Abstract: A direct ion storage (DIS) radiation detector or dosimeter has a design that is easy and low cost to manufacture using semiconductor processing techniques. The detectors include internal communications interfaces so they are easy to read. Different interfaces, including wired, e.g. USB ports, and wireless interfaces, may be used, so that the dosimeters may be read over the internet. The detectors can thus be deployed or used in a variety of detection systems and screening methods, including periodic or single time screening of people, objects, or containers at a location by means of affixed dosimeters; screening of objects, containers or people at a series of locations by means of affixed dosimeters, and surveillance of an area by monitoring moving dosimeters affixed to people or vehicles.

Abstract: A direct ion storage (DIS) radiation detector or dosimeter has a design that is easy and low cost to manufacture using semiconductor processing techniques. The detectors include internal communications interfaces so they are easy to read. Different interfaces, including wired, e.g. USB ports, and wireless interfaces, may be used, so that the dosimeters may be read over the internet. The detectors can thus be deployed or used in a variety of detection systems and screening methods, including periodic or single time screening of people, objects, or containers at a location by means of affixed dosimeters; screening of objects, containers or people at a series of locations by means of affixed dosimeters, and surveillance of an area by monitoring moving dosimeters affixed to people or vehicles.

Abstract: A direct ion storage (DIS) radiation detector or dosimeter has a design that is easy and low cost to manufacture using semiconductor processing techniques. The detectors include internal communications interfaces so they are easy to read. Different interfaces, including wired, e.g. USB ports, and wireless interfaces, may be used, so that the dosimeters may be read over the internet. The detectors can thus be deployed or used in a variety of detection systems and screening methods, including periodic or single time screening of people, objects, or containers at a location by means of affixed dosimeters; screening of objects, containers or people at a series of locations by means of affixed dosimeters, and surveillance of an area by monitoring moving dosimeters affixed to people or vehicles.

Abstract: A direct ion storage (DIS) radiation detector or dosimeter has a design that is easy and low cost to manufacture using semiconductor processing techniques. The detectors include internal communications interfaces so they are easy to read. Different interfaces, including wired, e.g. USB ports, and wireless interfaces, may be used, so that the dosimeters may be read over the internet. The detectors can thus be deployed or used in a variety of detection systems and screening methods, including periodic or single time screening of people, objects, or containers at a location by means of affixed dosimeters; screening of objects, containers or people at a series of locations by means of affixed dosimeters, and surveillance of an area by monitoring moving dosimeters affixed to people or vehicles.