Patent application number | Description | Published |
20080308718 | POSITION CONTROL FOR SCANNING PROBE SPECTROSCOPY - A method of position control for scanning probe spectroscopy of a specimen. Probe positional error is determined by comparing images generated from a sequence of scans to identify differences between positions of at least a portion of a reference characteristic of the specimen in the images. A probe is moved to a target location for spectroscopic analysis, as a function of the determined probe positional error. | 12-18-2008 |
20090090148 | LOCK SENSOR DETECTION SYSTEM - A lock sensor detection system for detecting when a door latch assembly is in a locked condition and in engagement with a door jamb includes a circuit having an open and closed condition. The circuit is in the closed condition when the door latch assembly is in the locked condition and in engagement with the door jamb. An actuator, preferably a magnet, is adapted to be disposed in the door jamb for actuating a circuit, preferably a magnetic circuit, when the circuit is in the closed condition and the door latch assembly engages the door jamb. A signal emitting component is disposed within and operatively connected to the door latch assembly for providing a signal in response to the circuit being in the closed and actuated conditions indicating that the door latch assembly is in an engaged and locked condition. | 04-09-2009 |
20120005621 | Programmable Equipment Configuration Method and Apparatus - A computer-implemented method, system, and computer readable medium for configuring programmable equipment having hardware devices that can be programmatically interconnected into different hardware configurations. A graphical user interface is provided on a computer display which permits a user to iconically define both a hardware and procedural configuration of the available hardware devices. Configuration data is generated that can be used to automatically configure the programmable equipment according to the user-defined hardware and procedural configuration. | 01-05-2012 |
Patent application number | Description | Published |
20100042258 | Manipulation of objects - A system for manipulation of objects. The system includes N objects, where N is greater than or equal to 2 and is an integer; and a mechanism for controlling and 2D locating of the N objects. A method for manipulating objects. The method includes the steps of receiving information from N objects, where N is greater than or equal to 2 and is an integer, at a centrally controlling and 2D locating controller; determining 2D locations by the controller of the N objects; and transmitting from the controller directions to the N objects for the N objects to move. An apparatus for tracking. The apparatus includes N objects, where N is greater than or equal to 2 and is an integer, each object having an emitter which emits light; and a mechanism for 2D sensing of the N objects over time from the light emitted by each emitter. The present invention pertains to a method for tracking. The method includes the steps of emitting light from N objects, where N is greater than or equal to 2 and is an integer; and sensing 2D locations of the N objects over time from the emitted light from the N objects. | 02-18-2010 |
20140244035 | Manipulation of Objects - A system for manipulation of objects. The system includes N objects, where N is greater than or equal to 2 and is an integer; and a mechanism for controlling and 2D locating of the N objects. A method for manipulating objects. The method includes the steps of receiving information from N objects, where N is greater than or equal to 2 and is an integer, at a centrally controlling and 2D locating controller; determining 2D locations by the controller of the N objects; and transmitting from the controller directions to the N objects for the N objects to move. An apparatus for tracking. The apparatus includes N objects, where N is greater than or equal to 2 and is an integer, each object having an emitter which emits light; and a mechanism for 2D sensing of the N objects over time from the light emitted by each emitter. The present invention pertains to a method for tracking. The method includes the steps of emitting light from N objects, where N is greater than or equal to 2 and is an integer; and sensing 2D locations of the N objects over time from the emitted light from the N objects. | 08-28-2014 |
Patent application number | Description | Published |
20100302185 | Touch Sensing - A touch-screen device includes a radiation source, a pliable waveguide configured to receive radiation emitted by the radiation source and to cause some of the received radiation to undergo total internal reflection within the pliable waveguide, a frustrating layer disposed relative to the pliable waveguide so as to enable the frustrating layer to contact the pliable waveguide when the pliable waveguide is physically deformed, the frustrating layer being configured to cause frustration of the total internal reflection of the received radiation within the pliable waveguide at a contact point between the frustrating layer and the pliable waveguide when the pliable waveguide is physically deformed to contact the frustrating layer such that some of the received radiation undergoing total internal reflection within the pliable waveguide escapes from the pliable waveguide at the contact point, and an imaging sensor configured to detect some of the radiation that escapes from the optical waveguide. | 12-02-2010 |
20100302196 | Touch Sensing - A touch-screen device includes an imaging waveguide, in which the imaging waveguide has a radiation receiving surface and an imaging surface different than the radiation receiving surface. The imaging waveguide is configured to receive, at the radiation receiving surface, radiation emitted by a contact receiving structure, and transmit the received radiation from a position on the radiation receiving surface to a position and/or angle of incidence on the imaging surface as a function of the position on the radiation receiving surface at which the transmitted radiation was received. An imaging sensor coupled to the imaging surface of the imaging optical waveguide is configured to detect radiation incident upon the imaging surface of the imaging optical waveguide. A processing device coupled to the imaging sensor is configured to determine contact points on the exposed contact surface of a contact receiving structure based on radiation detected by the imaging sensor. | 12-02-2010 |
20100302210 | Touch Sensing - A touch-screen device includes a radiation source, a waveguide configured to receive radiation emitted by the source and to cause some of the radiation to undergo total internal reflection within the waveguide, a pliable frustrating layer disposed relative to the waveguide to enable the frustrating layer to contact the waveguide when the frustrating layer is physically deformed, the frustrating layer being configured to cause frustration of the total internal reflection of the received radiation within the waveguide when the frustrating layer is physically deformed to contact the waveguide such that some of the received escapes from the waveguide at the contact point, an imaging sensor configured to detect some of the radiation that escapes from the waveguide, and a structure disposed relative to the frustrating layer, the structure configured to steer at least a portion of the radiation that escapes from the waveguide toward the imaging sensor. | 12-02-2010 |
20130033485 | CHANGING BETWEEN DISPLAY DEVICE VIEWING MODES - Embodiments that relate facilitating the viewing of images on a mobile device are disclosed. For example, one disclosed embodiment provides a mobile device including a display screen and an image display system configured to selectively switch between a first viewing mode in which an image comprising a first amount of visual information is displayed at a first apparent distance from the display screen and a second viewing mode in which an image comprising a second, different amount of visual information is displayed at a second apparent distance from the display screen. The mobile device further includes a controller in communication with the image display system, wherein the controller is configured to switch between the first viewing mode and the second viewing mode. | 02-07-2013 |
20130201094 | VIRTUAL IMAGE DEVICE - This document describes various apparatuses embodying, and techniques for implementing, a virtual image device. The virtual image device includes a projector and a lens configured to generate a virtual image as well as two diffraction gratings, substantially orthogonally-oriented to each other, that act to increase a field-of-view of the virtual image. The virtual image device can be implemented as a pair of eyeglasses and controlled to generate the virtual image in front of lenses of the eyeglasses so that a wearer of the eyeglasses, looking through the lenses of the eyeglasses, sees the virtual image. | 08-08-2013 |
20140240843 | NEAR-EYE DISPLAY SYSTEM - Embodiments are disclosed herein that relate to optical systems for augmented reality display systems. For example, one disclosed embodiment provides a near-eye display system including a prism having a light input interface side configured to receive light from an image source, the prism being configured to first internally reflect the light from the image source and then emit the light from the image source out of a light output interface side of the prism after internally reflecting the light from the image source. The optical system also includes a reflective combiner positioned to receive the light emitted from the light output interface side of the prism, and to reflect the light back through the prism. | 08-28-2014 |