Patent application number | Description | Published |
20100037140 | Sections of a Presentation having User-Definable Properties - In general, this disclosure describes techniques that employ user-defined values of properties of sections of an electronic presentation. As described herein, a user may configure a presentation to include a plurality of sections. Each of the sections includes zero or more slides of the electronic slide presentation. In addition to the slides associated with each section, each of the sections is associated with one or more properties having values that can be defined by an author of the presentation. Because the values of the properties of the sections are user-definable, these properties may, in some implementations of these techniques, enable the author of the presentation to use the sections in ways not possible in presentation applications that merely use sections as a means of grouping thumbnail images of slides for navigation among slides in an authoring interface. | 02-11-2010 |
20120131464 | Sections of a Presentation having User-Definable Properties - In general, this disclosure describes techniques that employ user-defined values of properties of sections of an electronic presentation. As described herein, a user may configure a presentation to include a plurality of sections. Each of the sections includes zero or more slides of the electronic slide presentation. In addition to the slides associated with each section, each of the sections is associated with one or more properties having values that can be defined by an author of the presentation. Because the values of the properties of the sections are user-definable, these properties may, in some implementations of these techniques, enable the author of the presentation to use the sections in ways not possible in presentation applications that merely use sections as a means of grouping thumbnail images of slides for navigation among slides in an authoring interface. | 05-24-2012 |
20150253941 | SECTIONS OF A PRESENTATION HAVING USER-DEFINABLE PROPERTIES - In general, this disclosure describes techniques that employ user-defined values of properties of sections of an electronic presentation. As described herein, a user may configure a presentation to include a plurality of sections. Each of the sections includes zero or more slides of the electronic slide presentation. In addition to the slides associated with each section, each of the sections is associated with one or more properties having values that can be defined by an author of the presentation. Because the values of the properties of the sections are user-definable, these properties may, in some implementations of these techniques, enable the author of the presentation to use the sections in ways not possible in presentation applications that merely use sections as a means of grouping thumbnail images of slides for navigation among slides in an authoring interface. | 09-10-2015 |
Patent application number | Description | Published |
20100031152 | Creation and Navigation of Infinite Canvas Presentation - A system and method for creating and conducting presentations on a surface may include an authoring mode, a preprocessing mode and a presentation mode. During an authoring mode, a user may create a surface presentation. In response to a command to play the created presentation, the system enters the preprocessing mode. During the preprocessing mode, a presentation is preprocessed and prepared for presentation. When preprocessing is complete, the presentation mode is entered. During the presentation mode, the infinite surface presentation is presented such that a user may navigate through the presentation. | 02-04-2010 |
20100174773 | SYNCHRONIZING PRESENTATION STATES BETWEEN MULTIPLE APPLICATIONS - A presentation state is received from the presenting application. The presentation state may represent a current state of the local presentation. A request for the presentation state is received from the viewing application. In response to receiving the request for the presentation state, the presentation state is provided to the viewing application. A request for presentation data synchronized to the presentation state is received from the viewing application. In response to receiving the request for presentation data synchronized to the presentation state, the presentation file is transformed into the presentation data synchronized to the presentation state. The presentation data synchronized to the presentation state is provided to the viewing application. The viewing application may be operative to read the presentation data and to display a remote presentation in response to reading the presentation data. | 07-08-2010 |
20130106888 | INTERACTIVELY ZOOMING CONTENT DURING A PRESENTATION | 05-02-2013 |
20130111391 | ADJUSTING CONTENT TO AVOID OCCLUSION BY A VIRTUAL INPUT PANEL | 05-02-2013 |
20130283170 | SYNCHRONIZING PRESENTATION STATES BETWEEN MULTIPLE APPLICATIONS - A presentation state is received from the presenting application. The presentation state may represent a current state of the local presentation. A request for the presentation state is received from the viewing application. In response to receiving the request for the presentation state, the presentation state is provided to the viewing application. A request for presentation data synchronized to the presentation state is received from the viewing application. In response to receiving the request for presentation data synchronized to the presentation state, the presentation file is transformed into the presentation data synchronized to the presentation state. The presentation data synchronized to the presentation state is provided to the viewing application. The viewing application may be operative to read the presentation data and to display a remote presentation in response to reading the presentation data. | 10-24-2013 |
20140053071 | READING MODE FOR INTERACTIVE SLIDE PRESENTATIONS WITH ACCOMPANYING NOTES - Concepts and technologies are described herein for providing interactive slide presentations with accompanying notes in a reading mode of a presentation application program. In accordance with some of the concepts and technologies disclosed herein, a computer-implemented method includes computer-implemented operations for providing a reading mode user interface that includes a presentation object including a slide placeholder and a notes placeholder. The method may also include displaying slide content within the slide placeholder in the reading mode user interface. The method may also include moving the presentation object out of a view and a new presentation object into the view in response to an input. The method may also include scaling the new presentation object. | 02-20-2014 |
Patent application number | Description | Published |
20090092965 | Method and Apparatus for Target Detection Using Electrode-Bound Viruses - A biosensor capable of detecting the presence and/or concentration of an analyte or biomarker includes at least one electrically conductive electrode operatively coupled to an impedance analyzer for measuring the change in the resistive impedance of the electrode in response to an applied alternating current at a plurality of frequencies. In one embodiment, at least one electrode is covered with a self-assembled monolayer that is chemically bonded to a surface. A plurality of virus particles such as phage viruses are immobilized on the self-assembled monolayer and may be exposed to a test or sample solution. The virus particles may be obtained from phage-displayed libraries to detect a wide variety of targets including, for example, DNA, RNA, small molecules, and proteins or polypeptides. In another embodiment, the virus particles are electrostatically bound to a substrate in between a pair of elongated electrodes disposed on a substrate. | 04-09-2009 |
20090197209 | LITHOGRAPHICALLY PATTERNED NANOWIRE ELECTRODEPOSITION - Lithographically patterned nanowire electrodeposition (LPNE) combines attributes of photolithography with the versatility of bottom-up electrochemical synthesis. Photolithography is employed to define the position of a sacrificial nanoband electrode, preferably formed from a metal such as nickel, copper, silver, gold or the like, which is stripped using electrooxidation or a chemical etchant to advantageously recess the nanoband electrode between a substrate surface and the photoresist to form a trench defined by the substrate surface, the photoresist and the nanoband electrode. The trench acts as a “nanoform” to form an incipient nanowire during its electrodeposition. The width of the nanowire is determined by the electrodeposition duration while its height is determined by the height of the nanoband electrode. | 08-06-2009 |
20100269569 | HYDROGEN GAS DETECTION USING SINGLE PALLADIUM NANOWIRES - Devices and methods for fast, sensitive hydrogen gas detection using a single palladium nanowire. In one embodiment, a hydrogen sensor comprises a palladium nanowire extending between metal contacts. The palladium nanowire is not subject to fracturing when exposed to hydrogen. The nanowire is able to rapidly and reversibly detect hydrogen as a resistance increase down to 2 ppm with excellent reproducibility and baseline stability at room temperature. | 10-28-2010 |
20130216996 | ELECTRICALLY CONDUCTIVE POLYMER NANOWIRES WITH INCORPORATED VIRUSES - Grafting M13 bacteriophage into an array of poly(3,4-ethylenedioxythiophene) (PEDOT) nanowires generated hybrids of conducting polymers and replicable genetic packages (rgps) such as viruses. The incorporation of rgps into the polymeric backbone of PEDOT occurs during electropolymerization via lithographically patterned nanowire electrodeposition (LPNE). The resultant arrays of rgps-PEDOT nanowires enable real-time, reagent-free electrochemical biosensing of analytes in physiologically relevant buffers. | 08-22-2013 |
20140014536 | METHOD AND APPARATUS FOR TARGET DETECTION USING ELECTRODE-BOUND VIRUSES - A biosensor that is capable of detecting the presence and/or concentration of an analyte or biomarker includes at least one electrically conductive electrode operatively coupled to an impedance analyzer for measuring the change in the resistive impedance ΔZ | 01-16-2014 |
20140030699 | ELECTRICALLY CONDUCTIVE POLYMER ELECTRODES WITH INCORPORATED VIRUSES - Grafting M13 bacteriophage into an array of poly(3,4-ethylenedioxythiophene) (PEDOT) nanowires generated hybrids of conducting polymers and replicable genetic packages (rgps) such as viruses. The incorporation of rgps into the polymeric backbone of PEDOT occurs during electropolymerization via lithographically patterned nanowire electrodeposition (LPNE). The resultant arrays of rgps-PEDOT nanowires enable real-time, reagent-free electrochemical biosensing of analytes in physiologically relevant buffers. | 01-30-2014 |