Patent application number | Description | Published |
20080246837 | AUTOSTEREOSCOPIC LIQUID CRYSTAL DISPLAY APPARATUS - A display apparatus includes an autosteroscopic liquid crystal display panel having a frame response time of less than 10 milliseconds, and a backlight positioned to provide light to the autosteroscopic liquid crystal display. The backlight includes a right eye solid state light source and a left eye solid state light source capable of being modulated between the right eye solid state light source and a left eye solid state light source at a rate of at least 90 Hertz. | 10-09-2008 |
20080284801 | STEREOSCOPIC 3D LIQUID CRYSTAL DISPLAY APPARATUS WITH BLACK DATA INSERTION - A display apparatus includes an liquid crystal display panel having a frame response time of less than 5 milliseconds, drive electronics configured to drive the liquid crystal display panel to black between images that are provided to the liquid crystal display panel at a rate of at least 90 images per second, and a backlight positioned to provide light to the liquid crystal display panel. The backlight includes a right eye solid state light source and a left eye solid state light source capable of being modulated between the right eye solid state light source and a left eye solid state light source at a rate of at least 90 Hertz. | 11-20-2008 |
20090009317 | APPARATUS AND METHOD FOR PROCESSING DATA COLLECTED VIA WIRELESS NETWORK SENSORS - An apparatus for processing data collected via a wireless network sensor includes modules for receiving and processing the data. The wireless network sensor includes a plurality of sensors for detecting events occurring proximate the sensors, a processor for receiving and processing data from the sensors, and a wireless transmitter for wirelessly transmitting data. The apparatus also includes modules for parsing events, episodes, vectors, links, and paths based upon the received data. The paths can be used to generate a representation of traffic patterns in a space monitored by wireless network sensors. | 01-08-2009 |
20090009323 | DISPLAY OF INFORMATION RELATED TO DATA COLLECTED VIA WIRELESS NETWORK SENSORS - A method for displaying an indication of data collected via a wireless network sensor involves processing the collected data to generate reports. The wireless network sensor includes a plurality of sensors for detecting events occurring proximate the sensors, a processor for receiving and processing data from the sensors, and a wireless transmitter for wirelessly transmitting data. The method displays an indication of parsed events, episodes, vectors, links, and paths based upon the received data. Another method displays a representation of a location of each sensor in the wireless network sensors in a monitored environment and information related to data collected via the sensors. | 01-08-2009 |
20090009339 | APPARATUS AND METHOD FOR LOCALLY PROCESSING DATA ON WIRELESS NETWORK SENSORS - A wireless network sensor includes several sensors for detecting events occurring proximate the sensors. It also includes a processor for receiving and processing data from the sensors and a wireless transmitter for wirelessly transmitting data. The processor is programmed to determine if an event occurred related to a particular change in a signal level of a signal received from one of the sensors and compress the event data. The compressed data can then be wirelessly sent to a computer for additional processing such as providing an indication of traffic patterns in an area monitored by the wireless network sensor. | 01-08-2009 |
20090009340 | METHODS FOR PROVIDING SERVICES AND INFORMATION BASED UPON DATA COLLECTED VIA WIRELESS NETWORK SENSORS - A method for processing data collected via a wireless network sensor includes providing information in a variety of ways based upon the processed data. The network sensor has a plurality of sensors for detecting events occurring proximate the sensors in a monitored space, a processor for receiving and processing data from the sensors, and a wireless transmitter for wirelessly transmitting data. The received data is processed to determine pedestrian traffic patterns in the monitored space, which can be used to design a layout and placement of goods for sale in the monitored space. The information for the pedestrian traffic patterns can also be provided in exchange for a fee to customers requesting it. | 01-08-2009 |
20090196206 | WIRELESS NETWORK SENSORS FOR DETECTING EVENTS OCCURRING PROXIMATE THE SENSORS - A detection sensor for detecting proximately occurring events such as traffic patterns. The detection sensor includes a housing having several apertures and a wireless network sensor located in the housing. The wireless network sensor has several sensors for detecting events occurring proximate them, a processor for receiving and processing data from the sensors, and a wireless transmitter for wirelessly transmitting data. Each of the sensors is contained within one of the apertures, and the apertures have shapes configured to provide for varying types of coverage areas for each of the sensors. | 08-06-2009 |
20110035271 | APPARATUS AND METHOD FOR PROCESSING DATA COLLECTED VIA WIRELESS NETWORK SENSORS - An apparatus for processing data collected via a wireless network sensor includes modules for receiving and processing the data. The wireless network sensor includes a plurality of sensors for detecting events occurring proximate the sensors, a processor for receiving and processing data from the sensors, and a wireless transmitter for wirelessly transmitting data. The apparatus also includes modules for parsing events, episodes, vectors, links, and paths based upon the received data. The paths can be used to generate a representation of traffic patterns in a space monitored by wireless network sensors. | 02-10-2011 |
20110108858 | STABLE LIGHT SOURCE - Light emitting systems are disclosed. The light emitting system emits an output light that has a first color. The light emitting system includes a first electroluminescent device that emits light at a first wavelength in response to a first signal. The first wavelength is substantially independent of the first signal. The intensity of the emitted first wavelength light is substantially proportional to the first signal. The light emitting system further includes a first luminescent element that includes a second electroluminescent device and a first light converting layer. The second electroluminescent device emits light at a second wavelength in response to a second signal. The first light converting layer includes a semiconductor potential well and converts at least a portion of light at the second wavelength to light at a third wavelength that is longer than the second wavelength. The light emitting system combines light at the first wavelength with light at the third wavelength to form the output light at the first color. When one of the first and second signals changes from about 50% of a maximum rating of the signal to about 100% of the maximum rating, but the ratio of the first signal to the second signal remains substantially unchanged, the first color of the output light remains substantially unchanged. | 05-12-2011 |
20110260741 | INTEGRATED PASSIVE CIRCUIT ELEMENTS FOR SENSING DEVICES - Capacitive sensing devices are provided that include a sensing pattern of conductive traces disposed upon the surface of a substrate and a first passive circuit element that includes a metallic conductor disposed upon the same surface of the substrate. In some embodiments, the first passive circuit element is a component of an electronic circuit that can be, for example, a low pass filter. Provided capacitive sensing devices are useful, for example, when incorporated into projected touch screen display panels for use on electronic devices. | 10-27-2011 |
20110310037 | TOUCH SCREEN SENSOR AND PATTERNED SUBSTRATE HAVING OVERLAID MICROPATTERNS WITH LOW VISIBILITY - Presently described are articles such as antennas, EMI shields, and touch screen sensors as well as patterned substrates having overlaid micropatterns with low visibility. Also described are methods of determining the visibility of a patterned substrate. In one embodiment, a patterned substrate is described comprising a visible light transparent substrate; and at least two overlaid electrically conductive mesh micropatterns, wherein each mesh has a repeating cell geometry and the combination of overlaid micropatterns has a spatial contrast threshold at a distance of 30000 units of greater than −35 decibels. | 12-22-2011 |
20120062497 | TOUCH SENSITIVE DEVICE WITH STYLUS SUPPORT - A touch-sensitive device with stylus includes a touch panel, a stylus drive unit, a stylus sense unit, a touch panel drive unit, and a measurement unit. A touch by a stylus proximate to a touch panel electrode changes a capacitive coupling between the touch panel electrode and a stylus electrode. The amplitude of the response signal is responsive to the capacitive coupling between the touch panel electrode and the stylus electrode, and is measured to provide an indication of the position of the stylus electrode relative to the touch panel. | 03-15-2012 |
20120062498 | TOUCH SENSITIVE DEVICE WITH STYLUS SUPPORT - A touch-sensitive device with stylus includes a touch panel, a stylus drive unit, a touch panel sense unit, and a measurement unit. A touch by a stylus proximate to a touch panel electrode changes a capacitive coupling between the touch panel electrode and a stylus electrode. The amplitude of the response signal is responsive to the capacitive coupling between the touch panel electrode and the stylus electrode, and is measured to provide an indication of the position of the stylus electrode relative to the touch panel. | 03-15-2012 |
20120062499 | TOUCH SENSITIVE DEVICE WITH STYLUS SUPPORT - A touch-sensitive device with stylus includes a touch panel, a touch panel drive unit, a stylus sense unit, and a measurement unit. A touch by a stylus proximate to a touch panel electrode changes a capacitive coupling between the touch panel electrode and a stylus electrode. The amplitude of the response signal is responsive to the capacitive coupling between the touch panel electrode and the stylus electrode, and is measured to provide an indication of the position of the stylus electrode relative to the touch panel. | 03-15-2012 |
20120125882 | METHOD OF MAKING TOUCH-SENSITIVE DEVICE WITH ELECTRODES HAVING LOCATION PATTERN INCLUDED THEREIN - A method of patterning a conductor on a substrate, the conductor including a unique location indicia that may be sensed with a sensing device, and the location on the substrate determined therefrom. | 05-24-2012 |
20120127114 | TOUCH-SENSITIVE DEVICE WITH ELECTRODES HAVING LOCATION PATTERN INCLUDED THEREIN - A conductive element in a touch sensitive device, such as an electrode in a mutual capacitive touch sensor, that includes conductors arranged in a location pattern that may be sensed and analyzed, and a position on the touch sensor determined therefrom. | 05-24-2012 |
20120280947 | STYLUS WITH PRESSURE SENSITIVE MEMBRANE - A stylus including a pressure sensitive membrane deployed as a pressure sensor therein. The pressure sensitive membrane is deformed upon the application of pressure to the stylus tip. The deformation changes an electrical property of the pressure sensitive membrane, said property being measured and used as an analog for pressure applied by a user to a surface via the stylus. | 11-08-2012 |
20130076710 | AUTOSTEREOSCROPIC LIQUID CRYSTAL DISPLAY APPARATUS - A display apparatus includes an autosteroscopic liquid crystal display panel having a frame response time of less than 10 milliseconds, and a backlight positioned to provide light to the autosteroscopic liquid crystal display. The backlight includes a right eye solid state light source and a left eye solid state light source capable of being modulated between the right eye solid state light source and a left eye solid state light source at a rate of at least 90 Hertz. | 03-28-2013 |
20130082970 | POSITIONAL TOUCH SENSOR WITH FORCE MEASUREMENT - A touch screen display sensor is provided that includes a transparent touch-sensing element disposed upon the surface of a transparent substrate and a force-sensing element disposed within the transparent touch-sensing element. The force-sensing element includes two sets of bands of micromesh and can include a pressure-responsive material between the bands of micromesh. The bands of micromesh include traces of a metallic conductor. The sets of bands of micromesh are spaced apart and occupy substantially parallel planes. | 04-04-2013 |
20130207911 | MESH PATTERNS FOR TOUCH SENSOR ELECTRODES - An electrode for a touch sensitive device includes micro-wire conductors arranged to define an electrically continuous area and to include interior regions that are electrically discontinuous. The electrically continuous area may be patterned according to a one pattern, and the interior pattern may be patterned according to another pattern. | 08-15-2013 |
20140152580 | MESH PATTERNS FOR TOUCH SENSOR ELECTRODES - An electrode for a touch sensitive device includes micro-wire conductors arranged to define an electrically continuous electrode trunk area, and including branching elements which extend outward from the electrode trunk area. The electrically continuous trunk area is patterned coincident an underlying reference mesh pattern, as are the branching elements. | 06-05-2014 |
20140347076 | TOUCH SENSOR ELECTRODE WITH PATTERNED ELECTRICALLY ISOLATED REGIONS - An electrode layer has a plurality of substantially parallel electrodes disposed along a first direction. At least one electrode has a length along the first direction and a width from a first edge to a second edge along a second direction transverse to the first direction. At least one electrode comprises across its width at least one edge section, at least one intermediate section, and at least one central section, wherein an intermediate section is disposed along the electrode width between an edge section and the central section. At least one electrode edge section and intermediate section includes a plurality of electrically isolated regions arranged in a pattern along the electrode length. An electrode conductive area of the edge section is less than an electrode conductive area of the intermediate section. | 11-27-2014 |