Patent application number | Description | Published |
20080218586 | Multipoint Conference Video Switching - A method includes receiving a plurality of audio signals, wherein the audio signals each include a plurality of packets containing voice data associated with conference participants. One or more of the audio signals is associated with a video signal and at least one of the audio signals is associated with a voice-only conference participant. The method further includes determining an activity metric for each of the plurality of audio signals, wherein the activity metric indicates a confidence value that the audio signal is associated with a conference participant that is currently speaking. The method also includes encoding, for each of the plurality of audio signals, one or more packets of the plurality of packets with the activity metric and sending the plurality of audio signals encoded with an activity metric to a conference bridge. | 09-11-2008 |
20080259823 | Efficient Error Response in a Video Conferencing System - Elements in a video conferencing system may respond to error message(s) by aggregating any related error messages and responding based on a severity of the error indicated by the related error messages. A multipoint control unit (MCU) may identify an active stream from a first endpoint and forward the active stream to a second endpoint. The active stream may include a plurality of packets and transmit a video image by sending a frame followed by sub-frame modifications. The MCU may receive an error message from the second endpoint and determine the error's severity, which is related to an impact on an displayed image. Based on the severity, the MCU may identify and send a set of correction packets to the second endpoint. Also, a third endpoint may receive the active stream and respond to one or more error messages received from the second endpoint. | 10-23-2008 |
20090109988 | Video Decoder with an Adjustable Video Clock - A method, an apparatus, and logic encoded in a computer-readable medium to carry out a method. The method includes receiving packets containing compressed video information, storing the received packets in a buffer memory, timestamping the received packets according to an adjustable clock; and removing packets from the buffer for decoding and playout of the video information, the removing according to playback order and at a time determined by the adjustable clock. The method includes adjusting the adjustable clock from time to time according to a measure the amount of time that the packets reside in the buffer memory, such that time latency caused by the buffer memory is limited. An overrun or an underrun of the buffer memory is unlikely. | 04-30-2009 |
20120092439 | SYSTEM AND METHOD FOR PROVIDING CONNECTIVITY IN A NETWORK ENVIRONMENT - A method is provided in one example and includes receiving a request for a video session and establishing the video session between a first user and a second user. The method further includes communicating a first stream of packets associated with signaling data that propagates to a first network, which provides a first network connection to the first user. The method also includes communicating a second stream of packets associated with media data that propagates to a second network, which provides a second network connection to the second user. The media data can include audio data and video data. | 04-19-2012 |
20120092444 | SYSTEM AND METHOD FOR PROVIDING VIDEOMAIL IN A NETWORK ENVIRONMENT - A method is provided in one example and includes receiving a request to establish a video session between a first user and a second user. The request is sent by the second user by dialing an identifier string associated with the first user. The method also includes evaluating whether the first user has accepted the request. If the first user has not accepted the request over a designated interval, then the second user is directed to an element configured for recording a videomail message for access by the first user. The method also includes identifying the first user has accepted the request, and establishing the video session between the first user and the second user. | 04-19-2012 |
20120120085 | SYSTEM AND METHOD FOR PROVIDING ENHANCED GRAPHICS IN A VIDEO ENVIRONMENT - A method is provided in one example and includes receiving a video input from a video source coupled to a display configured for rendering a user interface thereon; generating a grayscale element associated with the user interface by evaluating alpha values related to pixels associated with the video input; generating an opacity mask; and setting red, green, blue (RGB) values equal to an alpha value of a source image for certain pixels in the source image. | 05-17-2012 |
20120120181 | SYSTEM AND METHOD FOR PROVIDING ENHANCED GRAPHICS IN A VIDEO ENVIRONMENT - A method is provided in one example and includes receiving a video input from a video source coupled to a display configured for rendering a user interface thereon; evaluating a plurality of pixels within the video input; and determining if a particular pixel within the pixels is associated with a color that matches a designated value associated with a chroma-key. If a match is found for the particular pixel, then the particular pixel is rendered as a clear image on the display, and if the match is not found, the particular pixel is darkened by a certain percentage. | 05-17-2012 |
20120120184 | SYSTEM AND METHOD FOR PROVIDING CAMERA FUNCTIONS IN A VIDEO ENVIRONMENT - A method is provided in one example and includes receiving image data at a camera element that is provisioned at a first endpoint, which is configured to conduct a video session involving a second endpoint. The method also includes identifying an incoming request for the video session; signaling to the camera element to open a lens included within the camera element; detecting that the video session has been terminated; and signaling to the camera element to close the lens. | 05-17-2012 |
20120120270 | SYSTEM AND METHOD FOR PROVIDING ENHANCED AUDIO IN A VIDEO ENVIRONMENT - A method is provided in one example and includes receiving audio data at a microphone array that includes a plurality of microphones. The microphone array is provisioned at a first endpoint, which includes a camera element configured to capture video data associated with a video session involving the first endpoint and a second endpoint. The method also includes formatting the audio data into a time division multiplex (TDM) stream, and communicating the stream to a port for a subsequent communication over a network and to the second endpoint. | 05-17-2012 |
20120127259 | SYSTEM AND METHOD FOR PROVIDING ENHANCED VIDEO PROCESSING IN A NETWORK ENVIRONMENT - A method is provided in one example and includes receiving a video input from a camera element; using change detection statistics to identify background image data; using the background image data as a temporal reference to determine foreground image data of a particular video frame within the video input; using a selected foreground image for a background registration of a subsequent video frame; and providing at least a portion of the subsequent video frame to a next destination. | 05-24-2012 |
Patent application number | Description | Published |
20100133093 | Method for alkali doping of thin film photovoltaic materials - A method of manufacturing a solar cell includes providing a substrate, depositing a first electrode comprising an alkali-containing transition metal layer over the substrate, depositing at least one p-type semiconductor absorber layer over the first electrode, wherein the p-type semiconductor absorber layer includes a copper indium selenide (CIS) based alloy material, depositing an n-type semiconductor layer over the p-type semiconductor absorber layer, and depositing a second electrode over the n-type semiconductor layer. The step of depositing the alkali-containing transition metal layer includes sputtering from a first target comprising the transition metal and a second target comprising the alkali metal, where a composition of the first target is different from a composition of the second target. | 06-03-2010 |
20100258191 | Method and apparatus for controllable sodium delivery for thin film photovoltaic materials - A solar cell includes a substrate, a first electrode located over the substrate, where the first electrode comprises a first transition metal layer, at least one p-type semiconductor absorber layer located over the first electrode, an n-type semiconductor layer located over the p-type semiconductor absorber layer, and a second electrode located over the n-type semiconductor layer. The first transition metal layer contains (i) an alkali element or an alkali compound and (ii) a lattice distortion element or a lattice distortion compound. The p-type semiconductor absorber layer includes a copper indium selenide (CIS) based alloy material. | 10-14-2010 |
20100307915 | Barrier for doped molybdenum targets - A sputtering target, including a sputtering layer and a support structure. The sputtering layer includes an alkali-containing transition metal. The support structure includes a second material that does not negatively impact the performance of a copper indium selenide (CIS) based semiconductor absorber layer of a solar cell. The sputtering layer directly contacts the second material. | 12-09-2010 |
20100310783 | Barrier for doped molybdenum targets - A sputtering target, including a sputtering layer and a support structure. The sputtering layer includes an alkali-containing transition metal. The support structure includes a second material that does not negatively impact the performance of a copper indium selenide (CIS) based semiconductor absorber layer of a solar cell. The sputtering layer directly contacts the second material. | 12-09-2010 |
20110171395 | METHOD OF FORMING A SPUTTERING TARGET - A sputtering target, including a sputtering layer and a support structure. The sputtering layer includes an alkali-containing transition metal. The support structure includes a second material that does not negatively impact the performance of a copper indium selenide (CIS) based semiconductor absorber layer of a solar cell. The sputtering layer directly contacts the second material. | 07-14-2011 |
20110226320 | SOLAR CELL HAVING A TRANSPARENT CONDUCTIVE OXIDE CONTACT LAYER WITH AN OXYGEN GRADIENT - A solar cell includes a first electrode located over a substrate, at least one first conductivity type semiconductor layer located over the first electrode, at least one second conductivity type semiconductor layer located over the first conductivity semiconductor layer, and a transparent conductive oxide contact layer located over the second conductivity semiconductor layer. The first surface of the transparent conductive oxide contact layer may be located closer to the second conductivity type semiconductor layer than the second surface of the transparent conductive oxide contact layer, and the transparent conductive oxide contact layer may have an oxygen concentration that decreases continuously or in at least two discrete steps as a function of thickness for at least a first portion of the contact layer thickness in a direction from the first surface to the second surface. | 09-22-2011 |
20120003785 | Method and Apparatus for Controllable Sodium Delivery for Thin Film Photovoltaic Materials - A solar cell includes a substrate, a first electrode located over the substrate, where the first electrode comprises a first transition metal layer, at least one p-type semiconductor absorber layer located over the first electrode, an n-type semiconductor layer located over the p-type semiconductor absorber layer, and a second electrode located over the n-type semiconductor layer. The first transition metal layer contains (i) an alkali element or an alkali compound and (ii) a lattice distortion element or a lattice distortion compound. The p-type semiconductor absorber layer includes a copper indium selenide (CIS) based alloy material. | 01-05-2012 |