Abstract: An apparatus for detecting user interaction or another input with a projected display includes a boundary definition mechanism and a scanning mechanism. The boundary definition mechanism is capable of defining at least one input region. The scanning mechanism is capable of scanning the at least one input region for any objects therein. An input identification mechanism may identify the input identified by the object, movement of the object, or a change in the object's position. That information may be used to alter the projected display.

Abstract: A system for a gas turbine engine includes an igniter event conductor. The igniter event conductor has a first portion adjacent an igniter of the engine and in a combustion chamber of the engine and a second portion apart from the igniter and apart from the combustion chamber. The conductor is adapted to conduct an aspect of an igniter event at the igniter from the first portion to the second portion. A sensor is coupled to the second portion of the conductor to sense the aspect of the igniter event.

Abstract: A system for aerial image detection and classification is provided herein. The system comprising an aerial image database storing one or more aerial images electronically received from one or more image providers, and an object detection pre-processing engine in electronic communication with the aerial image database, the object detection pre-processing engine detecting and classifying objects using a disparity mapping generation sub-process to automatically process the one or more aerial images to generate a disparity map providing elevation information, a segmentation sub-process to automatically apply a pre-defined elevation threshold to the disparity map, the pre-defined elevation threshold adjustable by a user, and a classification sub-process to automatically detect and classify objects in the one or more stereoscopic pairs of aerial images by applying one or more automated detectors based on classification parameters and the pre-defined elevation threshold.

Abstract: Disclosed are mixing apparatus adapted to provide mixing of components in an automated analyzer. The mixing apparatus includes a reservoir configured to contain a coupling liquid, a transducer configured to be driven at a frequency and communicate with the coupling liquid, and a signal generation unit configured to provide a phase modulatable drive signal to the transducer. In some embodiments, improved patient sample and reagent mixing may be provided. Systems and methods are provided, as are other aspects.

Abstract: A uniform flow heat sink is described that is configured to employ variable spacing for air flow channels to account for non-uniformities in air flow due to arrangements of components within a housing of a computing device. Non-uniformities may be ascertained by analysis of an air flow profile for a computing device to detect regions of high and low flow. Air flow rates for the computing device may be balanced by configuring air flow channel spacing for the heat sink to vary around a perimeter of the heat sink and account for the ascertained non-uniformities. Air flow channel spacing may be controlled by changing the concentration, spacing, pitch, positioning and/or other characteristics of heat transfer surfaces associated with the heat sink. Generally, air flow channel spacing is increased in areas of high system impedance and decreased in areas of low system impedance to increase uniformity of flow.

Abstract: Systems and methods for creating and using equipment definitions are provided. An archetypal device used to identify one or more data points associated with the archetypal device. A point definition is generated for each identified data point associated with the archetypal device. Each point definition includes an abstraction of a text string extracted from the corresponding data point that is applicable to multiple different devices of the same type of building equipment. The generated point definitions are used to create an equipment definition for a type of building equipment. The equipment definition can be used to identify data points associated with other devices of the same type of building equipment and to automatically create equipment objects representing such devices.

Abstract: Heat dissipation configurations and methods are described herein. Certain electronic devices may include an individual piece of thermally conductive material having a first surface and a second surface. A first section of the thermally conductive material may be positioned between a motherboard and a backing layer of an electronic device such that the first surface of the first section is adjacent to the motherboard and the second surface of the first section is adjacent to the backing layer. A second section of the thermally conductive material may be positioned between a display module and a battery of the electronic device such that the first surface of the second section is adjacent to a back plate of the display module and the second surface of the second section is adjacent to the battery. The thermally conductive material may be configured to transfer heat between the first section and the second section.

Abstract: A scanning game input mechanism that includes a light-emitting mechanism that defines multiple input regions for a game in which there are multiple players. Each of the input regions is a portion of the playing surface in which a corresponding player subset is to provide physical input (such as rolling dice, playing cards, or placing game pieces, and so forth) to affect game state. A scanning mechanism scans objects placed within the input regions, while a communication mechanism communicates information regarding the scanned object. The information might, for example, be communicated to affect an electronic game state maintained in another device or distributed across multiple devices.

Abstract: 3D printed thermal management devices and corresponding methods of manufacturing are described herein. A thermal management device includes a single contiguous component including at least a portion of a first heat exchanger and at least a portion of a second heat exchanger. The second heat exchanger is of a different type than the first heat exchanger.

Abstract: An interactive environment image may be projected onto one or more surfaces, and interaction with the projected environment image may be detected within a three-dimensional space over the one or more surfaces. The interactive environment image may be a three dimensional image, or it may be two dimensional. An image is projected onto a surface to provide a visual representation of a virtual space including one or more of the virtual objects, which may be spatially positioned. User interaction with the projected visualized representation of the virtual space may be detected and, in response to user interaction, the projected visualized representation may be changed.

Abstract: Systems and methods for creating and using equipment definitions are provided. An archetypal device is selected and used to identify one or more data points associated with the archetypal device. A point definition is generated for each identified data point associated with the archetypal device. Each point definition includes an abstraction of the corresponding data point that is applicable to multiple different devices of the same type of building equipment. The generated point definitions are used to create an equipment definition for a type of building equipment. The equipment definition can be used to identify data points associated with other devices of the same type of building equipment and to automatically create equipment objects representing such devices.

Abstract: A system for aerial image detection and classification is provided herein. The system comprising an aerial image database storing one or more aerial images electronically received from one or more image providers, and an object detection pre-processing engine in electronic communication with the aerial image database, the object detection pre-processing engine detecting and classifying objects using a disparity mapping generation sub-process to automatically process the one or more aerial images to generate a disparity map providing elevation information, a segmentation sub-process to automatically apply a pre-defined elevation threshold to the disparity map, the pre-defined elevation threshold adjustable by a user, and a classification sub-process to automatically detect and classify objects in the one or more stereoscopic pairs of aerial images by applying one or more automated detectors based on classification parameters and the pre-defined elevation threshold.

Abstract: Micro-hole vents for device ventilation systems are described herein that may be formed as a plurality of micro-holes that are invisible to unaided human eyes. The micro-holes are configured to blend into the housing for a computing device such that the holes are substantially concealed from users of the computing device. A micro-hole vent may be aligned with a blower for a ventilation system to enable air intake through the corresponding micro-holes for cooling of components within the housing. In addition or alternatively, one or more exhaust vents for the ventilation system may also be configured as micro-hole vents. Each micro-hole vent may have many, very small holes for sufficient air flow. For example, micro-holes having diameters of about fifty to two hundred microns may be arranged in a pattern with a coverage in a range of about twelve thousand to fifty thousand holes per square inch.

Abstract: Heat dissipation configurations and methods are described herein. Certain electronic devices may include an individual piece of thermally conductive material having a first surface and a second surface. A first section of the thermally conductive material may be positioned between a motherboard and a backing layer of an electronic device such that the first surface of the first section is adjacent to the motherboard and the second surface of the first section is adjacent to the backing layer. A second section of the thermally conductive material may be positioned between a display module and a battery of the electronic device such that the first surface of the second section is adjacent to a back plate of the display module and the second surface of the second section is adjacent to the battery. The thermally conductive material may be configured to transfer heat between the first section and the second section.

Abstract: A lock including a body which houses a combination lock, which is releasable by the selection of a set code, the code being selectable by the movement of one or more dials, the or each dial including a first part which is manipulable by a user, wherein the lock includes a code finding device to enable the set code to be identified, the code finding device including a code finding member associated with the or each dial, the or each code finding member being engageable with a second part of the respective dial, to identify a position of the dial which corresponds with a digit of the set code, wherein the second part of each dial is moveable relative to the first part of the respective dial and relative to the respective code finding member between a disengaged position and an engaged position, and wherein the or each code finding member is fixed substantially stationary relative to the body.

Abstract: A method and system to automatically qualify a party to participate within a network-based commerce transaction is described. The system receives information from a first party. The information relates to an item to be transacted via a network-based commerce system. The system transmits the information that relates to the item to a second party and receives, from the second party, a request to be qualified to transact the item via the network-based commerce system. The system further transmits, to the first party, a communication comprising information that is related to the second party including a credit score related to the second party. The system further receives, from the first party, a response that corresponds to the communication and automatically performs an authorization process based on the response.

Abstract: Heat dissipation configurations and methods are described herein. A heat dissipation apparatus may include an individual piece of metal having a thermally conductive metal surface. The metal surface includes a plurality of ridges or protrusions extending from a base of the metal surface, wherein an air flow channel is provided between each two adjacent protrusions, therein providing a plurality of air flow channels. The apparatus is configured to dissipate heat for an electronic device having an active cooling source directing air through the plurality of air flow channels. In some examples, the heat dissipation apparatus is a vapor chamber, and the surface includes a section having a trough and a raised area or platform surrounded by the trough, wherein the raised area is configured to contact a microprocessor die in communication with the vapor chamber.

Abstract: An interactive environment image may be projected onto one or more surfaces, and interaction with the projected environment image may be detected within a three-dimensional space over the one or more surfaces. The interactive environment image may be a three-dimensional image, or it may be two-dimensional. An image is projected onto a surface to provide a visual environment representation of a virtual space including one or more of the virtual objects, which may be spatially positioned. User interaction with the projected visualized representation of the virtual environment space may be detected and, in response to user interaction, the projected visualized representation may be changed.

Abstract: A single-use, extrusion apparatus and method of using the apparatus. The apparatus includes a first housing member having a first port dimensioned to receive a first needle-tipped syringe, and a first needle path dimensioned to receive a first needle, wherein the first needle path extends from the first port through the first housing member; a second housing member having a second port dimensioned to receive a second needle-tipped syringe, and a second needle path, dimensioned to receive a second needle, wherein the second needle path extends from the second port through the second housing member and is collinear with the first needle path extending through the first housing member; and a membrane filter disposed between the first and second housing members, wherein a total dead-volume of the apparatus, not including the first and second needle paths is less than or equal to about 50 microliters.

Abstract: An apparatus includes a spray module with at least one column of spray nozzles. Each spray nozzle is configured to deliver a processing substance on a semiconductor substrate during a process for semiconductor manufacturing as the semiconductor substrate moves past the spray module. The at least one column of spray nozzles is arranged with respect to a direction of travel of the semiconductor substrate so the semiconductor substrate passes the spray nozzles. A location module identifies a location of the semiconductor substrate with respect to the spray module. A spray pattern module determines a spray pattern of where a processing substance is to be delivered to the semiconductor substrate and a nozzle control module actuates each spray nozzle independently based on the spray pattern and a location of the semiconductor identified by the location module.