Abstract: An omnidirectional multilayer thin film is provided. The multilayer thin film includes a multilayer stack having a first layer of a first material and a second layer of a second material, the second layer extending across the first layer. The multilayer stack reflects a narrow band of electromagnetic radiation having a full width at half maximum (FWHM) of less than 300 nanometers (nm) and a color/hue shift of less than 30 degrees when the multilayer stack is exposed to broadband electromagnetic radiation and viewed from angles between 0 and 45 degrees. In some instances, the multilayer stack has a total thickness of less than 2 microns (?m). Preferably, the multilayer thin film has a total thickness of less than 1.5 ?m and more preferably less than 1.0 ?m.

Abstract: A liquid material is discharged in a constant amount per unit time regardless of a relative moving speed. The liquid material application apparatus includes a discharge head, a robot moving the discharge head relative to a workpiece, a movement control unit controlling relative movement of the discharge head and the workpiece, and a discharge control unit controlling an operation of discharging a liquid material from a discharge head, wherein the discharge control unit executes, in a switchable manner in accordance with an application program, first mode discharge control of changing a discharge amount of the liquid material, which is discharged from the discharge head per unit time, depending on a relative moving speed between the discharge head and the workpiece, and second mode discharge control of operating the discharge head to discharge the liquid material in a predetermined discharge amount per unit time regardless of the relative moving speed.

Abstract: A benzimidazole compound and a preparation method thereof. Various substituted benzimidazoles are synthesized by a SN2 reaction and a cyclization reaction. Namely, o-fluorinated aryl-N,N-dimethyl-formamidine and primary amine are subjected to an cyclization by a one-pot reaction, wherein a fluorine atom is substituted by an amino, and then dimethylamine is eliminated, thus forming the product. The method does not require the use of any metal catalyst and/or any toxic reagent, and has a specific selectivity. No isomer exists in the reaction product.

Abstract: Systems and methods for determining turbine engine system stability encompass measuring or otherwise determining values of performance parameters, storing a data set of such values in memory, generating a stability indicator, and displaying the stability indicator on an operator interface. The stability indicator is generated by a processor operating in data communication with the computer memory, utilizing customized software algorithms to remove high frequency components, apply an adaptive filter to adjust selected parameters according to a target value of a selected target parameter, and apply a stochastic filters to estimate true values of the selected parameters, based on the remaining variation.

Abstract: In an electro-optical modulator, an electro-optical modulation layer is bonded to a cladding layer that overlies a substrate. A modulation zone waveguide is optically coupled to the electro-optical modulation layer and optically coupled to an I/O waveguiding structure embedded in the cladding layer. The I/O waveguiding structure is conformed to guide input light toward the modulation zone waveguide and to guide output light away from the modulation zone waveguide.

Abstract: A radar system wherein a radar return is channelized by frequency into a plurality of channels, and each of the channels is sampled by a respective analog-to-digital converter that has a sampling rate less than the Nyquist rate of the radar return. The digitally sampled channel signals are Fourier transformed into the frequency domain, where each of the frequency-domain channel signals is matched-filtered according to a respective partial matched filter. The channel signals are then transformed back to the time domain, whereupon they are added together to generate the impulse response of the radar system responsive to the radar return.

Abstract: To create a printed matter having favorable image quality that can prevent air bubbles from being trapped at the time when a protective film is attached to a medium. A method of creating printed matter includes: an ink arrangement step of ejecting a photocurable ink on a printing face of a medium by an inkjet method so that an average surface roughness of the printing face is smaller than 15 ?m and irradiating the photocurable ink with a light to be cured; and a laminating step of attaching the protective film to the medium by bonding an adhesive layer of the protective film to the printing face and a surface of the photocurable ink, and the protective film including the adhesive layer having a thickness equal to or larger than 18 ?m and a substrate supporting the adhesive layer.

Abstract: Methods, systems, and apparatus for automatically determining and implementing a driving mode from a plurality of driving modes of a vehicle. The system includes a GPS unit configured to detect a geographical location of the vehicle. The system includes a memory configured to store a driving mode map identifying an initial driving mode based on a given geographical location. The system includes an input unit configured to receive a driving mode sensitivity indicating a desired level of driving aggressiveness. The system includes an electronic control unit (ECU). The ECU is configured to determine the driving mode based on the driving mode map, the detected geographical location of the vehicle, and the driving mode sensitivity. The ECU is configured to automatically adjust operation of the vehicle based on the adjusted driving mode by adjusting a suspension, throttle sensitivity, shift points, air conditioning usage, traction control, or stability control.

Abstract: An electrolytic cell for generating hydrogen through the electrolysis of water, including an anodic compartment and a cathodic compartment separated by a solid polymeric electrolyte alkaline membrane. The anodic compartment includes a positive electrode or anode at least partially submerged in a layer of water, and the cathodic compartment includes a negative electrode or cathode. The cell is arranged between a first closing plate and a second closing plate. A tie-rod, provided in the central portion of the first closing plate, passes through the first closing plate, the cell and the second closing plate. A central collector for conveying the hydrogen generated in the cathodic compartment is arranged coaxially to the tie-rod and is in communication with the cathodic compartment through an opening formed in the tie-rod.

Abstract: Embodiments described herein generally relate to an assembly including a manifold structure. The manifold structure includes a fluid inlet and a fluid outlet. The fluid inlet is for receiving a cooling fluid into the manifold structure and the fluid outlet is for removing the cooling fluid from the manifold structure. The manifold structure also includes a first cooling surface and an opposite second cooling surface. The first cooling surface includes a cooling chip inlet opening fluidly coupled to a cooling chip outlet opening. The fluid inlet is fluidly coupled to the cooling chip inlet opening. The second cooling surface includes a cavity. A first integrated fluid channel fluidly couples the cooling chip outlet opening to the cavity and a second integrated fluid channel fluidly couples the cavity to the fluid outlet. A cooling chip includes a plurality of microchannels, which fluidly couple the cooling chip to the first cooling surface.

Abstract: A vehicle service system and method to determine spatial parameters of a vehicle, employing a display system under processor control, to display or project visible indicia onto surfaces in proximity to a vehicle undergoing a safety system service or inspection identifying one or more locations, relative to the determined vehicle centerline or thrust line, at which a calibration fixture, optical target, or simulated test drive imagery is visible for observation by a sensor onboard the vehicle.

Abstract: The present invention relates to methods of detecting one or more targets of interest in a sample. In one instance, the target can be correlated to an active infection (e.g., by a virus and/or a bacterium). Methods can include treating the sample with a dissociation agent, thereby releasing the target of interest for more accurate detection (e.g., by use of a sedimentation-based centrifugal microfluidic devices). Also described herein are microfluidic devices and systems for use with a dissociation agent.

Abstract: Devices, apparatus, systems, vehicles and methods for cleaning contaminated tanks without introducing free water or liquefier into the tanks. A mobile vehicle with left and right sets of tracks can support a gathering arm assembly, a bucket assembly, an eductor vacuum, and a pump/tank assembly that can be used to remove and break up waste debris from a contaminated tank.

Abstract: A vehicle seat assembly is provided including a back panel formed of an aluminum alloy material that is stamped to form an aluminum alloy stamped back panel. The aluminum alloy stamped back panel has a periphery and with fastening locations inwardly of the periphery. A backrest frame is provided comprising steel tubes. A plurality of fastening connections fix the back panel to the backrest frame at the fastening locations. A process is provided for forming a vehicle seat assembly including stamping an aluminum alloy sheet to form an aluminum alloy, stamped, back panel with a periphery and with fastening locations inwardly of the periphery, providing a backrest frame comprising steel tubes, providing a plurality of steel fasteners and fixing the aluminum alloy stamped back panel to the backrest frame with the fasteners at the fastening locations.

Abstract: A door assembly, of a vehicle that includes a first pillar structure and a second pillar structure, includes a door outer panel, a door inner panel coupled to and positioned inwardly of the door outer panel, and an impact beam positioned between the door outer panel and the door inner panel. The door impact beam includes a first end and an opposite second end, the first end overlaps the first pillar structure and the second end overlaps the second pillar structure. The door assembly further includes an inner bulkhead coupled to the door inner panel and positioned between the door inner panel and the first end of the impact beam, and an outer bulkhead coupled to the door inner panel and positioned between the inner bulkhead and the first end of the impact beam, the outer bulkhead overlaps a portion of the inner bulkhead.

Abstract: The disclosed embodiments relate to extrusion systems and involves a method to promote self-balancing of flow velocity while enhancing the strength of the end product by off-setting seams. This invention focuses on using a system of more than one deflector to produce multiple rings which are then quickly merged to produce a more quickly balanced ring.

Abstract: A capacitive sensor that includes: a sensing electrode having a capacitance to be measured; an alternating voltage source, configured to apply an alternating voltage to the sensing electrode; a capacitive first transfer device; a measurement circuit configured to measure the capacitance of the sensing electrode; and a switching arrangement. The switching arrangement is configured to alternately, in a first switching state, connect the first transfer device to the sensing electrode to enable a charge transfer from the sensing electrode to the first transfer device and, in a second switching state, connect the first transfer device to the measurement circuit to enable a charge transfer from the first transfer device to the measurement circuit.

Abstract: Systems and methods for predicting and/or detecting cardiac events based on real-time biomedical signals are discussed herein. In various embodiments, a machine learning algorithm may be utilized to predict and/or detect one or more medical conditions based on obtained biomedical signals. For example, the systems and methods described herein may utilize ECG signals to predict and detect cardiac events. In various embodiments, patterns identified within a signal may be assigned letters (i.e., encoded as distributions of letters). Based on the known morphology of a signal, states within the signal may be identified based on the distribution of letters in the signal. When applied in the in-vehicle environment, drivers or passengers within the vehicle may be alerted when an individual within the vehicle is, or is about to, experience a cardiac event.

Abstract: A wiring structure includes a conductive structure, a surface structure and at least one through via. The conductive structure includes at least one dielectric layer and at least one circuit layer in contact with the dielectric layer. The surface structure is disposed adjacent to a top surface of the conductive structure. The through via extends through the surface structure and extending into at least a portion of the conductive structure.

Abstract: Provided is a manufacturing method for a printed matter including a medium and a three-dimensional pattern printed on a surface of the medium. The three-dimensional pattern has a partly-coated resin portion and further has layers including a colored layer and clear layers formed on the colored layer. The three-dimensional pattern is formed by stacking the layers formed of inks at least containing resin on one another. One of the clear layers formed on an outermost surface of the three-dimensional pattern is flattened for a longer duration than at least one of the other one of the clear layers and the colored layer that are formed below the clear layer on the outermost surface, so that the one of the clear layers on the outermost surface is further flattened than at least one of the other one of the clear layers and the colored layer.