Patent application number | Description | Published |
20100250765 | NETWORK STREAMING OF A VIDEO MEDIA FROM A MEDIA SERVER TO A MEDIA CLIENT - Adjusting utilization of network bandwidth in a network comprising a media server and a media client is provided. The media client is connected to a display screen, and a video media is streamed from the media server to the media client. A distance between the display screen and a viewer is measured, and an indication of tile distance is sent to the media server. A resolution of the streaming video media is then adjusted in accordance with the indication, and the streaming video media with the updated resolution is received by the media client. | 09-30-2010 |
20100250766 | NETWORK STREAMING OF A VIDEO MEDIA FROM A MEDIA SERVER TO A MEDIA CLIENT - Adjusting utilization of network bandwidth in a network comprising a media server and a media client is provided. The media client is connected to a display screen, and a video media is streamed from the media server to the media client. A distance between the display screen and a viewer is measured, and an indication of the distance is sent to the media server. A frame rate of the streaming video media is then adjusted in accordance with the indication, and the streaming video media with the adjusted frame rate is received by the media client. | 09-30-2010 |
20100251293 | NETWORK STREAMING OF A VIDEO MEDIA FROM A MEDIA SERVER TO A MEDIA CLIENT - Adjusting utilization of network bandwidth in a network comprising a media server and a media client is provided. The media client is connected to a display screen, and a video media is streamed from the media server to the media client. Light on at least a portion of the display screen is measured, and an indication of the measured light intensity is sent to the media server. Bits of the streaming video media are then adjusted in accordance with the indication, and the streaming video media with adjusted bits is received by the media client. | 09-30-2010 |
20100284275 | RELIABLE NETWORK STREAMING OF A SINGLE DATA STREAM OVER MULTIPLE PHYSICAL INTERFACES - Sending a single data stream from a sending endpoint to a receiving endpoint, wherein both of the sending endpoint and the receiving endpoint each have multiple physical interfaces connecting the sending and receiving endpoint to multiple networks, respectively, is provided. The single data stream is partitioned into multiple data packets. A physical interface is designated on the sending side and the receiving side in accordance with a data capacity throughput of each of the multiple physical interfaces. Different portions of the partitioned data packets are then sent over different ones of the multiple physical interfaces in accordance with the designation. The single data stream is then reconstructed by combining received partitioned data packets into the single data stream in accordance with header information. An acknowledgment is sent to the sending endpoint indicating an amount of data received on each multiple physical interface, including any changes in the data capacity throughput. | 11-11-2010 |
20100287274 | EFFICIENT NETWORK UTILIZATION USING MULTIPLE PHYSICAL INTERFACES - An architecture for streaming data from a sending endpoint to a receiving endpoint which are connected to each other by multiple networks is provided. Each of the sending endpoint and the receiving endpoint has multiple physical interfaces each for interfacing to a respective one of the multiple networks. The architecture is implemented on both of the endpoints. The architecture includes a traffic monitor for gathering performance characteristics of each of the multiple physical interfaces, and a software library for controlling sending and receiving of the data stream between the endpoints. The traffic monitor and the software library communicate information to each other. The software library instantiates a plurality of bondable virtual interfaces for splitting the data stream into multiple data sub-streams and for combining the multiple data sub-streams into the data stream, and a data organizer for designating one of the plurality of bondable virtual interfaces. | 11-11-2010 |
20100287296 | NETWORK STREAMING OF A SINGLE DATA STREAM SIMULTANEOUSLY OVER MULTIPLE PHYSICAL INTERFACES - Sending a data stream from a sending endpoint to a receiving endpoint, wherein both of the sending endpoint and the receiving endpoint each have multiple physical interfaces connecting the sending endpoint and the receiving endpoint to multiple networks, respectively, is provided. The data stream is split into a series of data packets and sent over the multiple physical interfaces. A next available data packet of the series is sent over a fastest one of the multiple physical interfaces. A data packet from further back in the series is extracted in accordance with a determined expected difference in arrival time, and sent on a corresponding slower one of the multiple physical interfaces. The next available data packet is sent from the sending endpoint nearly simultaneously as the extracted data packet is sent from the sending endpoint. | 11-11-2010 |
20100296521 | EFFICIENT BANDWIDTH UTILIZATION WHEN STREAMING DATA OVER MULTIPLE NETWORK INTERFACES - Adjusting utilization of network bandwidth by a non-time critical data stream being sent from a sending endpoint to a receiving endpoint, wherein both of the sending endpoint and the receiving endpoint each have multiple physical interfaces connecting the sending endpoint and the receiving endpoint to multiple networks. The non-time critical data stream is split and sent over multiple physical interfaces. A determination is made as to whether at least one of the multiple physical interfaces of the sending endpoint is sending or receiving a time critical or a near-time critical data stream, and a notification is received by the sending endpoint in a case that at least one of the multiple physical interfaces of the receiving endpoint is sending or receiving a time critical or a near-time critical data stream. The network bandwidth utilization of at least one of the multiple physical interfaces of the sending endpoint is then adjusted in accordance with the determination and/or the notification. | 11-25-2010 |
20110083156 | NETWORK STREAMING OF A VIDEO STREAM OVER MULTIPLE COMMUNICATION CHANNELS - The present disclosure is directed to streaming a video from a sending endpoint to a receiving endpoint. Both of the sending endpoint and the receiving endpoint have multiple communication channels connecting the sending endpoint and the receiving endpoint to one or more networks, respectively, and the streaming video includes a plurality of intra-frame coded frames and a plurality of inter-frame coded frames. The sending endpoint splits the video stream into the plurality of intra-frame coded frames and inter-frame coded frames. The sending endpoint then sends different ones of the plurality of intra-frame coded frames to the receiving endpoint over more than one of the multiple communication channels having a connection-oriented protocol. Also, the sending endpoint sends different ones of the plurality of inter-frame coded frames to the receiving endpoint over more than one of the multiple communication channels having a connectionless-oriented protocol. The sent intra-frame coded frames and inter-frame coded frames are then received and recombined at the receiving endpoint. | 04-07-2011 |
20110235650 | PROVIDING FEEDBACK INFORMATION WHEN NETWORK STREAMING OVER MULTIPLE PHYSICAL INTERFACES - The present disclosure is directed to providing feedback information for a data stream being sent from a sending endpoint to a receiving endpoint. Both of the endpoints each have multiple physical interfaces connecting each endpoint to multiple networks, respectively. Information as feedback information is gathered regarding a data capacity throughput for each of the multiple physical interfaces connected to the endpoints. The feedback information is split and sent on one or more of the multiple physical interfaces from the receiving endpoint to the sending endpoint. A detection is made, based on the feedback information, whether one or more of the physical interfaces used to send the feedback information have degraded or failed. The feedback information is then reapportioned and sent from the receiving endpoint to the sending endpoint on one or more of the multiple physical interfaces which have not been detected as degraded or failed. | 09-29-2011 |
20110235651 | NETWORK STREAMING OVER MULTIPLE PHYSICAL INTERFACES USING FEEDBACK INFORMATION - The present disclosure is directed to using feedback information regarding a data stream being sent from a sending endpoint to a receiving endpoint. Both of the sending endpoint and the receiving endpoint each have multiple physical interfaces connecting the sending endpoint and the receiving endpoint to multiple networks, respectively, and the data stream is split into a series of data packets and sent over the multiple physical interfaces. Different portions of the data packets are sent over different ones physical interfaces based at least partially on a data capacity throughput for each of the multiple physical interfaces. Feedback information is gathered for each of the multiple physical interfaces. Feedback information gathered at the receiving endpoint is split and sent to the sending endpoint on one or more of the physical interfaces. Data packets are then reapportioned and sent over different ones of the physical interfaces based on the feedback information. | 09-29-2011 |
20110264818 | NETWORK STREAMING OVER MULTIPLE PHYSICAL INTERFACES - The present disclosure is directed to controlling a sending of a single data stream from a sending endpoint to a receiving endpoint. Both of the endpoints each have multiple physical interfaces connecting each endpoint to one or more networks. A buffer size is selected for a buffer at the receiving endpoint, and an estimation is made by the receiving endpoint of a fill rate of the buffer. The estimated fill rate is then compared with a target fill rate. Feedback is then sent by the receiving endpoint over one or more of the physical interfaces instructing the sending endpoint to reduce or increase a rate at which data is being sent, if the estimated fill rate is more than the target fill rate or the estimated fill rate is less than the target fill rate, respectively. The splitting and sending of data is then adjusted according to the feedback. | 10-27-2011 |
20110271002 | INITIALIZING NETWORK STREAMING OVER MULTIPLE PHYSICAL INTERFACES - The present disclosure is directed to initializing a sending of a single data stream from a sending endpoint to a receiving endpoint. Both of the endpoints each have multiple physical interfaces connecting each endpoint to one or more networks. A first list is sent from a first one of the sending endpoint and the receiving endpoint to a second one of the sending endpoint and the receiving endpoint. The first list includes one or more groups of data communication channels at the first endpoint on which to send or receive data. A selection is then made by the second endpoint of one of the groups of data communication channels included in the first list, by comparing the groups in the first list with groups in a second list. The second list includes groups of data communication channels at the second endpoint on which to send or receive data. | 11-03-2011 |
20110283009 | NETWORK STREAMING OF A VIDEO STREAM OVER MULTIPLE COMMUNICATION CHANNELS - The present disclosure is directed to streaming a video from a sending endpoint to a receiving endpoint. Both of the sending endpoint and the receiving endpoint have multiple communication channels connecting the sending endpoint and the receiving endpoint to one or more networks, respectively, and the streaming video includes a plurality of intra-frame coded frames and a plurality of inter-frame coded frames. The sending endpoint sends different ones of the plurality of intra-frame coded frames and different ones of high priority inter-frame coded frames to the receiving endpoint over more than one of the multiple communication channels having a connection-oriented protocol. In addition, the sending endpoint sends different ones of non-high priority inter-frame coded frames to the receiving endpoint over more than one of the multiple communication channels having a connectionless-oriented protocol. | 11-17-2011 |
20110320625 | NETWORK STREAMING OVER MULTIPLE DATA COMMUNICATION CHANNELS USING CONTENT FEEDBACK INFORMATION - The present disclosure is directed to sending a single data stream from a sending endpoint to a receiving endpoint. Both of the endpoints each have multiple data communication channels connecting each endpoint to one or more networks, respectively. Different portions of data packets are sent by the sending endpoint over different ones of the multiple data communication channels. Sender content information is sent by the sending endpoint to the receiving endpoint over one or more of the data communication channels. Feedback information is sent by the receiving endpoint over one or more of the data communication channels and is received by the sending endpoint. The feedback information is gathered for each of data communication channels connected to the receiving endpoint. Receiver content information regarding streaming data gathered at the receiving endpoint is sent by the receiving endpoint over one or more of the data communication channels and is received by the sending endpoint. | 12-29-2011 |
20130124609 | PROVIDING IMAGE DATA TO A CLIENT DISPLAY DEVICE - Providing display information to a client display device communicating with a plurality of servers is disclosed. Each of the servers provides a pre-assigned partial region of an overall image for display on the client display device. The client display device sends a request to each server via a multicast or broadcast communication channel. The request includes an identification of a plurality of partial regions of an image to be displayed on the client display device. The client display device receives image data from each server that is assigned to generate image data for partial regions identified by the client. Each of such servers asynchronously provides the image data for its pre-assigned partial region by sending the image data over one or more respective data communication channels to the client display device, in accordance with the request sent to each server via the communication channel. | 05-16-2013 |
20130300894 | SYSTEMS AND METHODS FOR SIMULATED PREVIEW FOR PREFERRED IMAGE EXPOSURE - Systems and methods for simulating an image exposure capture a first set of images of a scene; and generate a flash preview image based on the first set of images, an estimated scene spectral reflectance, an estimated spectral power distribution of the scene, and one or more flash device settings, wherein the flash preview image approximates a brightness and a color appearance of a final image of the scene captured while the scene is illuminated by a flash device according to the one or more flash device settings | 11-14-2013 |