Patent application number | Description | Published |
20090151523 | PIVOT GRIP - An implementation of a system and method for a hand tool having a pivot grip is provided. The pivot grip provides an axis of rotation perpendicular and centered with a pair of concave finger holds positioned at the grip. The hand tool includes a housing forming the pivot grip, a sensor (e.g., stud sensor, capacitive sensor, electromagnetic sensor, metallic sensor, RF sensor, and/or the like) and a power switch. | 06-18-2009 |
20100097212 | Dynamic information projection for a wall sensor - An implementation of a system, device and method for projecting a visual indicator against a surface is provided. A display projection system in a handheld sensor device (e.g. a handheld wall scanner) projects a static or computer-controlled dynamic pattern of light onto a surface being scanned to indicate a specific feature, such as existence of solid structures of wood, metal or plastic, electric or magnetic fields, or a disturbance of a field. The projected light may be controlled by a computer via an aperture to allow flexibility in what is projected, such as icons, lines, graphics, characters and colors. | 04-22-2010 |
20140084901 | Hand tool having a pivot grip for sensing measurements behind a target surface - An implementation of a system and method for a hand tool having a pivot grip is provided. The pivot grip provides an axis of rotation perpendicular to and centered with a pair of concave finger holds positioned at the grip. The hand tool includes a housing forming the pivot grip, a sensor (e.g., stud sensor, capacitive sensor, electromagnetic sensor, metallic sensor, RF sensor, and/or the like) and a power switch. | 03-27-2014 |
20140139348 | Dynamic information projection for a wall sensor - An implementation of a system, device and method for projecting a visual indicator against a surface is provided. A display projection system in a handheld sensor device (e.g. a handheld wall scanner) projects a static or computer-controlled dynamic pattern of light onto a surface being scanned to indicate a specific feature, such as existence of solid structures of wood, metal or plastic, electric or magnetic fields, or a disturbance of a field. The projected light may be controlled by a computer via an aperture to allow flexibility in what is projected, such as icons, lines, graphics, characters and colors. | 05-22-2014 |
Patent application number | Description | Published |
20150030164 | MICROPHONE CALIBRATION - The disclosed apparatus, systems, and methods provide a calibration technique for calibrating a set of microphones. The disclosed calibration technique is configured to calibrate the microphones with respect to a reference microphone and can be used in actual operation rather than a testing environment. The disclosed calibration technique can estimate both the magnitude calibration factor for compensating magnitude sensitivity variations and the relative phase error for compensating phase delay variations. In addition, the disclosed calibration technique can be used even when multiple acoustic sources are present. The disclosed technique is particularly well suited to calibrating a set of microphones that are omnidirectional and sufficiently close to one another. | 01-29-2015 |
20150030166 | APPARATUS, SYSTEMS, AND METHODS FOR CALIBRATION OF MICROPHONES - The disclosed apparatus, systems, and methods provide a calibration technique for calibrating a set of microphones. The disclosed calibration technique is configured to calibrate the microphones with respect to a reference microphone and can be used in actual operation rather than a testing environment. The disclosed calibration technique can estimate both the magnitude calibration factor for compensating magnitude sensitivity variations and the relative phase error for compensating phase delay variations. In addition, the disclosed calibration technique can be used even when multiple acoustic sources are present. The disclosed technique is particularly well suited to calibrating a set of microphones that are omnidirectional and sufficiently close to one another. | 01-29-2015 |
20150086038 | TIME-FREQUENCY DIRECTIONAL PROCESSING OF AUDIO SIGNALS - An approach to processing of acoustic signals acquired at a user's device include one or both of acquisition of parallel signals from a set of closely spaced microphones, and use of a multi-tier computing approach in which some processing is performed at the user's device and further processing is performed at one or more server computers in communication with the user's device. The acquired signals are processed using time versus frequency estimates of both energy content as well as direction of arrival. In some examples, a non-negative matrix or tensor factorization approach is used to identify multiple sources each associated with a corresponding direction of arrival of a signal from that source. In some examples, data characterizing direction of arrival information is passed from the user's device to a server computer where direction-based processing is performed. | 03-26-2015 |
Patent application number | Description | Published |
20090082188 | Folder with common chopper - A folder includes a first signature conveyor conveying first signatures along a first signature path; a second signature conveyor conveying second signatures along a second signature path; and a chopper located between the first and second signature paths imparting a fold on both the first and second signatures. A chopper and method are also provided. | 03-26-2009 |
20090239727 | Apparatus and method for cutting and folding printed products - An apparatus for cutting and folding printed products is provided. The apparatus includes a perforator, a first cutting device creating first slits in the web, a second cutting device creating second slits in the web longitudinally offset from the first slits so as to form a signature with a staggered edge, and a folder delta-folding the signature so that the staggered edge engages slots in the signature, the slots created by the perforator. A method of folding a printed product and a signature are also provided. Lead edges can be more easily prevented from dislodging and dog-earing and skewing can be minimized. | 09-24-2009 |
20100261593 | Apparatus and Method for Cutting and Folding Printed Products - A method of folding a printed product is provided. The method includes the steps of cutting a web so as to form a signature having lead edge tabs, the signature having perforation slots and folding the signature so the lead edge tabs enter the perforation slots. Lead edges may be more easily prevented from dislodging and dog-earing and skewing may be minimized. | 10-14-2010 |
20100288145 | HIGH SPEED PRINTED PRODUCT REORIENTATION METHOD AND APPARATUS - A printing press is provided. The printed press includes a plurality of printing units printing on a web and a folder for processing the web. The folder includes a cutter for cutting the web into printed products and a nip section for reorienting the printed products. The nip section includes a first pair of nip rolls, a second pair of nip rolls and at least one motor driving the first pair of nip rolls and the second pair of nip rolls, the at least one motor driving the first pair of nip rolls at different velocities than the second pair of nip rolls to reorient the printed products. A method for reorienting printed products in printing press is also provided. | 11-18-2010 |
20110067587 | Multi-functional maintenance friendly pitch-changing apparatus - A printing press is provided. The printing press includes a print unit printing a plurality of printed products, the plurality of printed products being formed into a stream downstream of the print unit. The printing press also includes at least one base and a press component, the press component is mounted onto the at least one base for placement in the stream and translational movement transverse to the stream. The press component may be a pitch changing apparatus. A method is also provided. | 03-24-2011 |
20110109039 | Apparatus for electronically diverting signatures - An apparatus for diverting incoming printed products which includes a shaft, at least one first flipper mounted in a first fixed direction on the shaft, a motor coupled to the shaft; and a controller coupled to the motor for controlling positioning of the shaft to allowing printed products to be diverted along different paths associated with a particular shaft position. The apparatus further includes a low inertia coupler interconnected between the motor and the shaft. Alternatively, the apparatus includes a roll, a first motor coupled to the roll and a controller coupled to the first motor for controlling the rotation of the roller for diverting printed products along one of two different paths, each path associated with a direction of rotation of the roll. This alternative apparatus may also include a shaft with at least one flipper mounted thereon and a second motor coupled to the shaft. | 05-12-2011 |
20120228824 | Apparatus for Electronically Diverting Signatures - An apparatus for diverting incoming printed products is provided. The apparatus includes a roll, a first motor coupled to the roll and a controller coupled to the first motor for controlling the rotation of the roller for diverting printed products along one of two different paths, each path associated with a direction of rotation of the roll. This apparatus may also include a shaft with at least one flipper mounted thereon and a second motor coupled to the shaft. | 09-13-2012 |