Abstract: A directional free-space optical communication system includes a source device including a laser diode and an endpoint device including a photodiode. The endpoint device and the source device also include an adjustable optics subsystem that increases both angular and positional offset tolerance between the source device and the endpoint device.

Abstract: A touch panel, a touch display device and a method for manufacturing the touch panel are provided. The touch panel includes a first substrate and a second substrate which are oppositely arranged; a first blanking layer formed on the first substrate; a touch electrode layer formed on the first blanking layer; and a second blanking layer formed on the second substrate. A side of the first substrate provided with the first blanking layer and the touch electrode layer faces a side of the second substrate provided with the second blanking layer.

Abstract: An inverted non-stop apparatus of a multi-cylinder diesel engine for a free-fall lifeboat is provided. The apparatus includes a lubricating system and a breathing system. The lubricating system includes a machine body (101), an engine oil pump, and an oil pan (118). The breathing system is a diesel engine breather. A partition board (1181) is transversely provided in the oil pan (118) to divide a cavity of the oil pan (118) into a left cavity and a right cavity. The left cavity is an oil collection groove (1182), and the right cavity is an oil tank body (127A). A flange is provided at an opening of the oil tank body (127A) for fixing an oil tank cover (125) to form an enclosed lubricating oil tank (127). The engine oil pump is a double pump having oil inlets and outlets independent separately, which is formed by superposing upper and lower layers, wherein the upper layer is a lubricating pump (111) and the lower layer is an oil return pump (112).

Abstract: Various embodiments of the present disclosure provide a system and method for matching two or more addresses. In one embodiment, the system and method includes extracting certain strings or tokens from the addresses, storing the extracted portions into address property containers, and comparing the extracted properties in a layered approach based on the information constructed in the address property containers. In the first layer, the primary properties of the first address are compared to the primary properties of the second address. In the second layer, for each common primary property the modifiers associated with the common primary property of the first address are compared to the modifiers associated with selected primary properties of the second address.

Abstract: A system for generating an object in a mixed reality space obtains a two-dimensional (2D) object having a face with four vertices and determine a visibility and a thickness of one or more edges of the 2D object to be generated. The thickness is based at least in part on a viewing vector and a normal vector for the 2D object. A rendered 2D object with the determined thickness is generated, including rendering the one or more edges with one or more colors to emulate a lighting condition. The rendered 2D object is presented in a mixed reality space that allows the more efficient viewing of an augmented reality environment with a user device.

Abstract: Techniques are disclosed for enabling scaling graphical elements defined based on one or more mathematical functions, while retaining certain features of the graphical elements. In various embodiments an example method may include defining a shape relative to a primitive object based on one or more functions, the shape including a feature based on a configurable parameter associated with the one or more functions. An image of the shape is then rendered and displayed via a display device. The example method continues with receiving an input indicative of a request to scale the shape. In response to receiving the input, the rendering and display of the image of the shape is dynamically updated by scaling the primitive object based on the input, wherein scaling the primitive object scales the shape, but retains a scale of the feature as set by the configurable parameter.

Abstract: A light-emitting device includes a semiconductor substrate, a surface-emitting semiconductor light source on the semiconductor substrate, a monolithic first dielectric, and a second dielectric. The monolithic first dielectric is transparent to light emitted by the light source and includes first and second micro-lenses adjacent an aperture of the light source and having axes parallel to and offset from an axis of a beam of light emitted by the light source, and a saddle-shaped lens over the aperture of the light source. The saddle-shaped lens connects the first and second micro-lenses and reshapes the beam of light emitted by the light source to have a high aspect ratio. The second dielectric is transparent to light emitted by the light source and encapsulates a light emission surface of the saddle-shaped lens. The second dielectric has a higher refractive index than the monolithic first dielectric.

Abstract: A device includes a display stack and an optical receiver. The display stack includes a set of opaque elements defining a translucent aperture. The translucent aperture extends through the display stack. The optical receiver is spaced apart from and behind a back surface of the display stack. At least one micro-optic element is formed on the back surface of the display stack, between the display stack and the optical receiver. The at least one micro-optic element includes a micro-optic element having a focal point located within the translucent aperture. The optical receiver is configured to receive light through the translucent aperture and the at least one micro-optic element.

Abstract: A directional free-space optical communication system includes a source device including a laser diode and an endpoint device including a photodiode. The endpoint device and the source device also include an adjustable optics subsystem that increases both angular and positional offset tolerance between the source device and the endpoint device.

Abstract: An example system includes an electron ionization ion source and a mass analyzer. The electron ion source is configured, during operation of the system, to create from sample molecules a beam of ions extending along an ion beam axis. The system also includes a collision cooling chamber comprising a gas manifold and an electric field generator. The cooling chamber defines an entrance aperture and an exit aperture on respective opposing ends of the cooling chamber, the entrance aperture of the cooling chamber being in axial alignment with the ion beam axis. The cooling chamber is configured, during operation of the system, to generate a radio frequency (RF) field within the cooling chamber using the electric field generator, and receive collision gas through the gas manifold to pressurize the cooling chamber.

Abstract: A learned image compression system increases compression efficiency by using a novel conditional context model with embedded autoregressive neighbors and hyperpriors, which can accurately estimate the entropy rate for rate distortion optimization. Generalized Divisive Normalization (GDN) in Residual Neural Network is used in the encoder and decoder networks for fast convergence rate and efficient feature representation.

Abstract: Embodiments for implementing mixed precision learning for neural networks by a processor. A neural network may be replicated into a plurality of replicated instances and each of the plurality of replicated instances differ in precision used for representing and determining parameters of the neural network. Data instances may be routed to one or more of the plurality of replicated instances for processing according to a data pre-processing operation.

Abstract: Dynamic soft shadows may be generated without resorting to computationally-expensive multiple render passes and sampling, or lightmap generation. With disclosed systems and methods, a dynamic soft shadow may be rendered in a single pass, which is sufficiently efficient to run on an untethered virtual reality (VR) device, such as a head mounted device (HMD). Despite the efficiency, the shadow quality may be markedly superior to those generated with other methods. In some embodiments, a script may be used with a shader to render a shadow having a realistic size, shape, position, fading factor and sharpness, based on a position and size of a shadow casting element and a light vector.

Abstract: An electronic system for displaying visual information to a user includes a head-mounted display (HMD) including a near-eye display (NED), a microprocessor in data communication with the NED, and a storage device in data communication with the microprocessor. The storage device has instructions stored thereon that, when executed by the microprocessor, cause the microprocessor to perform a method. The method includes identifying an origin point and target point and calculating an object distance between the origin point and the target point in three-dimensional space. The target point is part of a virtual object that is procedurally generated. The object distance is used to adjust a threshold value of a distance test. The method further includes determining a shader value for the target point and applying a shader to the target point to create a shaded virtual object. The shaded virtual object is then displayed to the user with the NED.

Abstract: A LED driving system for a LED matrix having a plurality of LEDs connected in parallel. The LED driving system includes a plurality of driving modules. Each one of the plurality of driving modules drives a corresponding one of the plurality of LEDs. The plurality of LEDs are divided into a plurality of groups. The plurality of driving modules drive the plurality of LEDs ON successively group by group. In each one of the plurality of groups, the LESs are driven ON successively row by row, and for each row in each one of the plurality of groups, the LEDs are driven ON successively column by column with a programmed delay time between the LEDs in every two successive columns. Each one of the plurality of driving modules can include a grayscale control module for adjusting a brightness of the corresponding one of the plurality of LEDs.

Abstract: Techniques are disclosed for producing an anti-aliasing effect in the rendering of graphical elements defined based on one or more mathematical functions. In various embodiments an example method may include defining a shape based on one or more functions. A view of the shape is then rendered which includes generating a plurality of fragments corresponding to pixels in a display device through which the view will be displayed. Transparency values are set for fragments corresponding to a boundary of the shape based on the one or more functions defining the shape. The transparency values set for the fragments corresponding to the boundary of the shape result in an anti-aliasing effect when the view of the shape is displayed via the display device.

Abstract: Disclosed herein are structures, devices, and systems for detecting touch and force inputs at multiple sensing locations on a surface of an electronic device using waveguide-based interferometry. A laser light source, such as a VCSEL, inserts light into a waveguide positioned adjacent to the sensing locations, and an input at a sensing location alters the inserted light in the waveguide allowing for determination of the input's touch or force at the sensing location. Wavelength modulation of the inserted light allows isolation in frequency of the signals from each sensing location. Optical phase locking can be used to lock an absolute distance beat frequency corresponding to a stationary reference point in the waveguide.

Abstract: A mask is provided. The mask includes a plurality of light blocking strips configured to block light and bounding spaces through which light is allowed to pass. The plurality of light blocking strips are arranged in a mesh shape, and include first light blocking strips located in at least one side edge of the mask, and second light blocking strips, and each of the first light blocking strips has a greater width than each of the second light blocking strips. An exposure method using the mask, and a touch display panel manufactured by the exposure method are also provided.

Abstract: A optical communication system including a source device and an endpoint device. The source device include an array of laser diodes and is configured to drive the laser diodes to project a sequence of patterns into the field of view of the source device to define a set of serially-projected codes, each of which isolated to one respective angular division of the field of view of the source device. The endpoint device receives a serially-projected code from the source device which varies based which angular division of the field of view of the source device is occupied by the endpoint device.

Abstract: Disclosed herein are structures, devices, and systems for detecting touch and force inputs at multiple sensing locations on a surface of an electronic device using waveguide-based interferometry. A laser light source, such as a VCSEL, inserts light into a waveguide positioned adjacent to the sensing locations, and an input at a sensing location alters the inserted light in the waveguide allowing for determination of the input's touch or force at the sensing location. Wavelength modulation of the inserted light allows isolation in frequency of the signals from each sensing location. Optical phase locking can be used to lock an absolute distance beat frequency corresponding to a stationary reference point in the waveguide.