Abstract: A rotor blade assembly of a wind turbine includes a rotor blade having an aerodynamic body with an inboard region and an outboard region. The inboard and outboard regions define a pressure side, a suction side, a leading edge, and a trailing edge. The inboard region includes a blade root, whereas the outboard region includes a blade tip. The rotor blade also defines a chord and a span. Further, the inboard region includes a transitional region of the rotor blade that includes a maximum chord. Moreover, a chord slope of the rotor blade in the transitional region ranges from about ?0.10 to about 0.10 from the maximum chord over about 15% of the span of the rotor blade. In addition, a slope of a change in the chord in the outboard region at a peak from concave to convex or vice versa is greater than about ?0.

Abstract: In an embodiment, an automation system for a vehicle may employ a variety of diversities to enhance reliability, accuracy, and stability in automating operation of the vehicle. For example, in an embodiment, an automation system for a vehicle may include multiple sensor pods with overlapping fields of view. Each sensor pod may include multiple different sensors in an embodiment, providing diverse views of the environment surrounding the vehicle. A set of sensor pods with overlapping fields of view may also transmit their object data at different points in time, providing diversity in time. Redundancy in other areas, such as the network switches which connect the sensor pods to an automation controller, may also aid in provided fail operational functionality. In an embodiment, the sensor pods may include local processing to process the data captured by the sensors into object identification.

Abstract: An apparatus, method, and computer-readable recording medium perform client optimized onboarding in a wireless network. A network controller of a gateway device determines a first received signal strength indicator (RSSI) of a new client device, receives a second RSSI of the new client device from each of one or more wireless extenders, and determines a strongest RSSI among the determined first RSSI and the received second RSSI from each of the one or more wireless extenders. The network controller of the gateway device receives an onboarding request with respect to any one or the gateway device and the one or more wireless extenders, and sends a command to proceed with an onboarding operation of the new client device to any one of the gateway device and the one or more wireless extenders having the strongest RSSI from the new client device.

Abstract: Utensil dispensers and methods for making and using same. The utensil dispensers can include a housing configured to contain a stack of utensils. The stack of the utensils comprises at least one utensil in addition to a next utensil. At least one generally vertical guide rail can be disposed within the housing, and can be configured to receive a first portion of each utensil having a contoured projection extending outwardly from each utensil to maintain the stack of the utensils in a stacked orientation. A front pedestal can be disposed inside the housing and beneath the generally vertical guide rail. The front pedestal can be configured to contact the first portion of the next utensil, and a rear pedestal can be disposed inside the housing and beneath the generally vertical guide rail. The rear pedestal can be configured to contact a second portion of the next utensil.

Abstract: A packaged electronic device structure includes a substrate having a major surface. A semiconductor device is connected to the major surface of the substrate, the semiconductor device having a first major surface, a second major surface opposite to the first major surface, and a side surface extending between the first major surface and the second major surface. A package body encapsulates a portion of the semiconductor device, wherein the side surface of the semiconductor device is exposed through a side surface of the package body. In some examples, the side surface of the semiconductor device is an active surface. In some examples, the package body comprises a molded structure that contacts and overlaps the first major surface of the semiconductor device.

Abstract: A method is provided for installing a jointed rotor blade of a wind turbine. A second section is positioned in a six o'clock position. At least one lifting line is routed through the second section radially inward of an inner surface of the section. A first end of the lifting line is coupled to a first section and a second end of the lifting line is coupled to a power source positioned within at least one of a or a nacelle of the wind turbine. The first section of the jointed rotor blade is lifted toward the second section by driving the lifting line via the power source. The first section and the second section are lined gather at a chordwise joint and coupled at the chordwise joint.

Abstract: A method is provided for installing a jointed rotor blade of a wind turbine. A second section is positioned in a six o'clock position. At least one lifting line is routed through the second section radially inward of an inner surface of the section. A first end of the lifting line is coupled to a first section and a second end of the lifting line is coupled to a power source positioned within at least one of a or a nacelle of the wind turbine. The first section of the jointed rotor blade is lifted toward the second section by driving the lifting line via the power source. The first section and the second section are lined gather at a chordwise joint and coupled at the chordwise joint.

Abstract: A method and apparatus for analyzing samples using mass spectrometry are disclosed. The apparatus includes a reaction device configured to dissociate sample ions into fragments by reacting the sample ions with a charged species (e.g., electrons) such as through ECD, EID, or EIEIO. The kinetic energy of the charged species is such that the fragments may be detected and produce spectra that allow for the determination of isomeric species in the sample and the location of double bonds and/or the orientation of those double bonds within the sample molecules. The fragments may include radical fragments and non-radical fragments. Spectra resulting from analysis of the fragments may allow for the determination of the oxygen-radical fragments resulting from the dissociation of the sample molecules as confirmation of the presence of those radical fragments.

Abstract: The disclosure provides methods, systems and computer program products that enable optimized direct benefit transfers from an originator to a beneficiary. Implementation of a direct benefit transfer involves receiving from an originator bank server a user identifier uniquely associated with the beneficiary, and direct benefit transfer payment amount. The user identifier is used to retrieve a payment account identifier associated with the beneficiary. The retrieved identifiers are used to route the payment account identifier and the transaction amount information to a beneficiary bank server that is identified. The beneficiary bank server responds to credit of the disbursement amount, by crediting the payment account associated with the beneficiary.

Abstract: Systems for power over data line applications with low mode conversion are described. For example, an apparatus may include a magnetic core; a first conductive coil wound in a first winding direction around the magnetic core; a second conductive coil wound in a second winding direction around the magnetic core; a first conductive lead connecting a first end of the first conductive coil to a first pin; a second conductive lead connecting a second end of the first conductive coil to a second pin; a third conductive lead connecting a first end of the second conductive coil to a third pin, wherein lengths of the first conductive lead and the third conductive lead are equal; and a fourth conductive lead connecting a second end of the second conductive coil to a fourth pin, wherein lengths of the second conductive lead and the fourth conductive lead are equal.

Abstract: Utensil dispensers and methods for making and using same. In some examples, the utensil dispensers can include a housing configured to contain a stack of utensils. A stack gauge comprising a gauge arm can be configured to indicate a quantity of utensils in the stack of the utensils in the housing and is visible from outside the housing and the dispenser.

Abstract: Known lipid molecules of a matrix are grouped into lipid classes and the lipid classes are further grouped into a pass-through group and a mobility separation group based on isobaric interferences. A separation system separates known lipid molecules from a matrix sample and an ion source ionizes the matrix sample. Two injections are performed. For the first injection a DMS device is put into passive mode, and for the second injection the DMS device is used to resolve isobaric interferences. A tandem mass spectrometer performs MRM scans of the pass-through group for the first injection and MRM scans of the mobility separation group for the second injection. A processor quantitates each lipid molecule in the matrix sample by comparing the MRM intensity values obtained for the first and second injections to MRM intensity and concentration values for known standards of the known lipid molecules of the matrix.

Abstract: An internal component and external interface arrangement for a cylindrical compact computing system is described that includes at least a structural heat sink having triangular shape disposed within a cylindrical volume defined by a cylindrical housing. A computing engine having a generally triangular shape is described having internal components that include a graphics processing unit (GPU) board, a central processing unit (CPU) board, an input/output (I/O) interface board, an interconnect board, and a power supply unit (PSU).

Abstract: An internal component and external interface arrangement for a cylindrical compact computing system is described that includes at least a structural heat sink having triangular shape disposed within a cylindrical volume defined by a cylindrical housing. A computing engine having a generally triangular shape is described having internal components that include a graphics processing unit (GPU) board, a central processing unit (CPU) board, an input/output (I/O) interface board, an interconnect board, and a power supply unit (PSU).

Abstract: Sensor data produced in a multi-sensor environment is time synchronized, such as using a master time. A component that derives the master time transmits a signal to a first sensor of the multi-sensor environment, which signal indicates the master time. The component subsequently receives a signal from the first sensor, which signal indicates a first time determined by the first sensor based on the master time and a latency associated with the first sensor. The first time indicates a time of an event associated with the first sensor data. A determination is then made that the first sensor data corresponds to second sensor data produced using a second sensor of the multi-sensor environment based on the first time and a second time indicating a time of an event associated with the second sensor data.

Abstract: A method and apparatus for analyzing samples using mass spectrometry are disclosed. The apparatus includes a reaction device configured to dissociate sample ions into fragments by reacting the sample ions with a charged species (e.g., electrons) such as through ECD, EID, or EIEIO. The kinetic energy of the charged species is such that the fragments may be detected and produce spectra that allow for the determination of isomeric species in the sample and the location of double bonds and/or the orientation of those double bonds within the sample molecules. The fragments may include radical fragments and non-radical fragments. Spectra resulting from analysis of the fragments may allow for the determination of the oxygen-radical fragments resulting from the dissociation of the sample molecules as confirmation of the presence of those radical fragments.

Abstract: A packaged electronic device structure includes a substrate having a major surface. A semiconductor device is connected to the major surface of the substrate, the semiconductor device having a first major surface, a second major surface opposite to the first major surface, and a side surface extending between the first major surface and the second major surface. A package body encapsulates a portion of the semiconductor device, wherein the side surface of the semiconductor device is exposed through a side surface of the package body. In some examples, the side surface of the semiconductor device is an active surface. In some examples, the package body comprises a molded structure that contacts and overlaps the first major surface of the semiconductor device.

Abstract: An internal component and external interface arrangement for a cylindrical compact computing system is described that includes at least a structural heat sink having triangular shape disposed within a cylindrical volume defined by a cylindrical housing. A computing engine having a generally triangular shape is described having internal components that include a graphics processing unit (GPU) board, a central processing unit (CPU) board, an input/output (I/O) interface board, an interconnect board, and a power supply unit (PSU).

Abstract: A packaged electronic device structure includes a substrate having a major surface. A semiconductor device is connected to the major surface of the substrate, the semiconductor device having a first major surface, a second major surface opposite to the first major surface, and a side surface extending between the first major surface and the second major surface. A package body encapsulates a portion of the semiconductor device, wherein the side surface of the semiconductor device is exposed through a side surface of the package body. In some examples, the side surface of the semiconductor device is an active surface. In some examples, the package body comprises a molded structure that contacts and overlaps the first major surface of the semiconductor device.

Abstract: The present invention relates to a watermark formation element for forming watermarks in paper, a cylinder mould cover comprising such a watermark formation element, a method of making such a cylinder mould cover, a method of making paper using such a cylinder mould cover and paper made thereby. The watermark formation element has an integrated body comprising a watermark forming surface, which has one or more watermark forming regions, and a drainage surface. A plurality of drainage channels extend from front surface apertures in the watermark forming surface to the drainage surface. At least some of the front surface apertures are shaped to define at least one of an alphanumeric, a symbol or a pictorial image. A filter layer located between the watermark forming surface and the drainage surface having filter layer apertures which have a maximum width which is less than a smallest width of the front surface apertures.