Patent application number | Description | Published |
20110145879 | DECOMPOSED MULTI-STREAM (DMS) TECHNIQUES FOR VIDEO DISPLAY SYSTEMS - This disclosure describes techniques that can improve the generation of a decomposed multi-stream (DMS) by a host device of a video display system and the display of a DMS by a client device of the video display system. The techniques may apply different frame rates to different streams within a DMS, and the frame rates may depend on the content. For example, one stream within a DMS may comprise a sequence of full-motion video information, which may be rendered at a relatively high frame rate. However, another stream within the DMS may be associated with a background of the display, various graphic user interface control windows or elements, or a display window that includes non-video content (such as e-mail or a document). The second stream in the DMS may be rendered at a much slower frame rate than that used for the sequence of full-motion video information. | 06-16-2011 |
20130002949 | USER INPUT BACK CHANNEL FOR WIRELESS DISPLAYS - As part of a communication session, a wireless source device can transmit audio and video data to a wireless sink device, and the wireless sink device can transmit user inputs received at the wireless sink device back to the wireless source device. In this manner, a user of the wireless sink device can control the wireless source device and control the content that is being transmitted from the wireless source device to the wireless sink device. As part of establishing the communication session, the wireless sink device and the wireless source device may perform capability negotiation. | 01-03-2013 |
20130003621 | USER INPUT BACK CHANNEL FOR WIRELESS DISPLAYS - As part of a communication session, a wireless source device can transmit audio and video data to a wireless sink device, and the wireless sink device can transmit user input data received at the wireless sink device back to the wireless source device. In this manner, a user of the wireless sink device can control the wireless source device and control the content that is being transmitted from the wireless source device to the wireless sink device. The user input data transmitted by the wireless sink device can be input data obtained at a third party device and forwarded to the wireless source device. | 01-03-2013 |
20130003622 | USER INPUT BACK CHANNEL FOR WIRELESS DISPLAYS - As part of a communication session, a wireless source device can transmit audio and video data to a wireless sink device, and the wireless sink device can transmit user inputs received at the wireless sink device back to the wireless source device. In this manner, a user of the wireless sink device can control the wireless source device and control the content that is being transmitted from the wireless source device to the wireless sink device. As part of transmitting user input to the source device, the sink device can generate a data packet that identifies a user input category for the user input, and the source device can process the data packet based on the user input category. | 01-03-2013 |
20130003623 | USER INPUT BACK CHANNEL FOR WIRELESS DISPLAYS - As part of a communication session, a wireless source device can transmit audio and video data to a wireless sink device, and the wireless sink device can transmit user inputs received at the wireless sink device back to the wireless source device. In this manner, a user of the wireless sink device can control the wireless source device and control the content that is being transmitted from the wireless source device to the wireless sink device. As part of transmitting user input to the source device, the sink device can generate a data packet with a data packet header that includes a timestamp flag indicating the presence of a timestamp field, and the source device can process the data packet based on a timestamp in the timestamp field. | 01-03-2013 |
20130003624 | USER INPUT BACK CHANNEL FOR WIRELESS DISPLAYS - As part of a communication session, a wireless source device can transmit audio and video data to a wireless sink device, and the wireless sink device can transmit user inputs received at the wireless sink device back to the wireless source device. In this manner, a user of the wireless sink device can control the wireless source device and control the content that is being transmitted from the wireless source device to the wireless sink device. As part of transmitting user input to the source device, the sink device can generate a data packet with a data packet header that includes a timestamp field, and the source device can process the data packet based on a timestamp in the timestamp field. | 01-03-2013 |
20130009873 | USER INPUT BACK CHANNEL FOR WIRELESS DISPLAYS - As part of a communication session, a wireless source device can transmit audio and video data to a wireless sink device, and the wireless sink device can transmit user input data received at the wireless sink device back to the wireless source device. In this manner, a user of the wireless sink device can control the wireless source device and control the content that is being transmitted from the wireless source device to the wireless sink device. | 01-10-2013 |
20130009887 | USER INPUT BACK CHANNEL FOR WIRELESS DISPLAYS - As part of a communication session, a wireless source device can transmit audio and video data to a wireless sink device, and the wireless sink device can transmit user input data received at the wireless sink device back to the wireless source device. In this manner, a user of the wireless sink device can control the wireless source device and control the content that is being transmitted from the wireless source device to the wireless sink device. The input data received at the wireless sink device can be a multi-touch gesture. | 01-10-2013 |
20130009996 | USER INPUT BACK CHANNEL FOR WIRELESS DISPLAYS - As part of a communication session, a wireless source device can transmit audio and video data to a wireless sink device, and the wireless sink device can transmit user input data received at the wireless sink device back to the wireless source device. In this manner, a user of the wireless sink device can control the wireless source device and control the content that is being transmitted from the wireless source device to the wireless sink device. The input data received at the wireless sink device can have associated coordinate information that is scaled or normalized by either the wireless sink device or the wireless source device. | 01-10-2013 |
20130013318 | USER INPUT BACK CHANNEL FOR WIRELESS DISPLAYS - As part of a communication session, a wireless source device can transmit audio and video data to a wireless sink device, and the wireless sink device can transmit user input data received at the wireless sink device back to the wireless source device. In this manner, a user of the wireless sink device can control the wireless source device and control the content that is being transmitted from the wireless source device to the wireless sink device. The input data received at the wireless sink device can be a voice command. | 01-10-2013 |
20130033435 | USER INPUT DEVICE FOR WIRELESS BACK CHANNEL - Aspects of this disclosure relate to a method that includes, in an example, sending, by a source device, display data to a sink device for rendering on the sink device. The method also includes receiving, by the source device, an indication of user input at a first display location of a touch-sensitive screen associated with the source device, wherein the user input specifies a modification of at least a portion of the display data rendered at the sink device, wherein the portion of the display data is rendered at a second display location of the sink device. The method also includes, in response to receiving the indication, sending, by the source device, second configuration data to modify the portion of the display data rendered at the second display location based at least in part on a mapping of the first display location to the second display location. | 02-07-2013 |
20130033496 | CONTENT PROVISIONING FOR WIRELESS BACK CHANNEL - In one example, this disclosure describes a method that includes, in an example, determining, by a source device, that display data rendered by the source device comprises one or more displayable graphical objects. The method also includes in response to determining an event, selecting, by the source device, a set of the one or more graphical objects for rendering at a sink device. The method also includes generating, by the source device, configuration data based at least in part on the set of the one or more graphical objects, wherein the configuration data is usable by the sink device to render representations of graphical objects in the set of one or more graphical objects based at least in part on one or more display parameters associated with the sink device. The method also includes sending, by the source device, the configuration data to the sink device. | 02-07-2013 |
20130047189 | LOW LATENCY WIRELESS DISPLAY FOR GRAPHICS - As part of a communication session, a wireless source device can transmit video component data and metadata to a wireless sink device. The wireless source device can intercept the video component data prior to the video component data being rendered by the wireless source device, and the wireless sink device can generate a frame of video data based on the video component data and the metadata. | 02-21-2013 |
20130089006 | MINIMAL COGNITIVE MODE FOR WIRELESS DISPLAY DEVICES - This disclosure relates to techniques for enabling a sink device in a Wireless Display (WD) system to control operation of the source device and media data sent from the source device. In one example, a method comprises establishing a communication session between a source device and at least one sink device capable of operating in a Minimal Cognitive (MC) mode, wherein the MC mode includes one or more levels, receiving a signal from the sink device to activate a particular level of the MC mode based on trigger information detected at the sink device, and sending media data to the sink device according to an altered operation of the source device for the particular level of the MC mode. | 04-11-2013 |
20130139210 | MULTICASTING IN A WIRELESS DISPLAY SYSTEM - This disclosure relates to techniques to establish a multicast communication session between a source device and multiple sink devices in a Wireless Display (WD) system. Two or more sink devices may be interested in receiving the same media data from the source device. According to the techniques, the source device establishes a multicast session with the sink devices in the WD system, and sends a single copy of multicast media data for the multicast session to the interested sink devices using a receiving multicast port. The source device selects a receiving multicast port number as a destination identifier for each multicast session. The sink devices interested in receiving the media data of a given multicast session bind on the receiving multicast port for the multicast session. This disclosure describes several exemplary multicast subscription procedures to ensure correct binding on the receiving multicast port at each of the sink devices. | 05-30-2013 |
20130145050 | WIRELESS DOCKING - Systems, methods, and devices are disclosed that identify a first peripheral and a second peripheral, receive information from the first peripheral and the second peripheral, communicate the information received from the first peripheral to the second peripheral, and communicate the information received from the second peripheral to the first peripheral. The information communicated to the first and second peripherals allow the first and second peripherals to communicate directly with one another. | 06-06-2013 |
20130179029 | VEHICLE DASHBOARD WIRELESS DISPLAY SYSTEM - A wireless source and an automobile dashboard configured to function as a wireless sink device are configured to communicate with one another including authenticating the source device for communications with the dashboard sink, transmitting user inputs received at the dashboard sink back to the wireless source device to enable a user to control the source device and interact with and control the content that is being transmitted from the source device to the dashboard sink, controlling the operational state of the source device based on the operational state of the automobile in which the dashboard sink is arranged, and transmitting data generated by the automobile from the dashboard sink to the source device so as to enable the source device to process at least some of the data. | 07-11-2013 |
20130179605 | BI-DIRECTIONAL TUNNELING VIA USER INPUT BACK CHANNEL FOR WIRELESS DISPLAYS - This disclosure describes a method of establishing a bi-directional user interface back channel (UIBC) to a computing device, receiving encapsulated peripheral data from the computing device using the UIBC, and decapsulating the peripheral data, as well as a method of establishing a bi-directional user interface back channel (UIBC) to a computing device, receiving peripheral data, encapsulating the peripheral data, and transmitting the encapsulated peripheral data to the computing device using the UIBC. | 07-11-2013 |
20130195119 | FEEDBACK CHANNEL FOR WIRELESS DISPLAY DEVICES - A sink device in a Wireless Display (WD) system may send performance information feedback to a source device to adjust media data processing at the source device. The performance information feedback may include performance indicators of the WD system that are capable of being measured or calculated at the sink device based on received media data or request to adjust the transmission of media data. For example, the performance information feedback may include one or more of round trip delay, delay jitter, packet loss ratio, error distribution, and received signal strength indication (RSSI). The feedback channel may be piggybacked on a reverse channel architecture referred to as the User Input Back Channel (UIBC) implemented between the source device and the sink device. | 08-01-2013 |
20130222210 | FRAME CAPTURE AND BUFFERING AT SOURCE DEVICE IN WIRELESS DISPLAY SYSTEM - This disclosure describes techniques to improve a user experience in a Wireless Display (WD) system. The WD system includes a source device that provides media data to one or more sink devices. The techniques are directed toward reducing end-to-end latency in the WD system while improving video playback quality at the sink devices. More specifically, the techniques include low latency screen capture and buffering at the source device. For example, a processing pipeline of the source device may be configured to include minimum-size buffers between processing steps to reduce latency. The techniques include buffering a most recent frame update captured from the media data in the minimum-size buffers and dropping older frame updates when the minimum-size buffers are full. In addition, the processing pipeline may be configured to use hardware acceleration to retrieve the frame updates from the buffers for processing. | 08-29-2013 |
20130222699 | CUSTOMIZED BUFFERING AT SINK DEVICE IN WIRELESS DISPLAY SYSTEM BASED ON APPLICATION AWARENESS - This disclosure describes techniques to improve a user experience in a Wireless Display (WD) system. The WD system includes a source device that provides media data to one or more sink devices. The techniques are directed toward reducing end-to-end latency in the WD system while improving video playback quality at the sink devices. More specifically, the techniques include customized buffering at the sink devices based on application awareness for the media data. The techniques include learning the type of application for the media data, and adjusting the size of buffers in the processing pipeline to achieve an appropriate balance between smoothness and latency for the application type. For example, when the media data is for a video playback application, the techniques include increasing the buffer size to increase smoothness in the video playback application. | 08-29-2013 |
20130223538 | CUSTOMIZED PLAYBACK AT SINK DEVICE IN WIRELESS DISPLAY SYSTEM - This disclosure describes techniques to improve a user experience in a Wireless Display (WD) system. The WD system includes a source device that provides media data to one or more sink devices. The techniques are directed toward reducing end-to-end latency in the WD system while improving video playback quality at the sink devices. More specifically, the techniques include customized playback at the sink devices based on the type of media data received from the source device. If the media data only includes video data and does not include audio data, a processing pipeline of the sink device is configured to render the video data without waiting to synchronize with non-existent audio data. If the media data includes both video data and audio data, an audio rendering start-up timer is reduced and the processing pipeline renders synchronized audio and video data according to the reduced start-up timer. | 08-29-2013 |
20130246663 | DATA REDIRECTION FOR UNIVERSAL SERIAL BUS DEVICES - Aspects of this disclosure relate to data transfer. In an example, aspects of this disclosure include a method that includes generating, at a host device, a Universal Serial Bus (USB) redirect configuration request for establishing a connection between a first USB device connected to a USB hub and a second USB device connected to the USB hub, wherein the connection between the first USB device and the second USB device does not include the host device. The method also includes requesting, after the connection between the first USB device and the second USB device has been established, data to be routed from the first USB device to the second USB device via the USB hub. | 09-19-2013 |
20130282938 | Extensible WSE Hub to Support a Multi-Hop Tree of USB Hubs or Peripherals over a Wireless Link - An extensible hub is disclosed for providing multi-hop wireless communication among universal serial bus (USB) devices, for example, utilizing a WiGig Serial Extension (WSE) air interface. The extensible hub may include a device protocol adaptation layer (PAL), as well as a host PAL, and further a bridge for providing a data flow path between the device and host PALs. The bridge may be configured to distinguish between request messages and response messages in accordance with a header on those messages. Further, the extensible hub may include virtual ports and may map device handles and endpoint handles to provide for routing of messages to the correct downstream devices in a multi-hop network tree. | 10-24-2013 |
20140013014 | METHOD AND APPARATUS FOR IDENTIFYING WIRELESS PERIPHERALS AND THEIR STATES AT A DOCKING HOST FOR WIRELESS DOCKING - Various aspects of the present disclosure enable a docking host that manages a docking environment to establish an initial connection between the docking host and one or more wireless peripheral devices to perform functionality determination of the wireless peripherals devices. The docking host may store the results of the functionality and, upon receiving a request from a dockee to access the functionality that the docking host may provide, will update the results. In one aspect of the disclosed approach, the docking host may determine the current state of the wireless peripheral devices before advertising any functionality information to the dockee. Other aspects, embodiments, and features are also claimed and described. | 01-09-2014 |
20140120829 | ESTABLISHING A WIRELESS DISPLAY SESSION BETWEEN A COMPUTING DEVICE AND A VEHICLE HEAD UNIT - This disclosure describes a method of transmitting media data from a source device, the method comprising establishing, with the source device, a first communication session between the source device and a sink device comprising a vehicle head unit, wherein the first communication session conforms to a communication protocol. The method also comprises discovering, with the source device and by the first communication session, the sink device. The method further comprises, during operation of the first communication session, establishing with the source device a second communication session between the source device and the sink device, wherein the second communication session conforms to a wireless display protocol. The method also comprises transmitting, using the second communication session, media data from the source device to the sink device for output to an interface of the sink device. | 05-01-2014 |
20140146745 | DOCKEE-CENTRIC WIRELESS DOCKING - In one example, a method includes sending a request to a wireless docking host to select one or more peripheral functions available via the wireless docking host in accordance with authentication and association information associated with a docking session with the wireless docking host. The method further includes sending a request to the wireless docking host to establish one or more payload connections with the wireless docking host, wherein the one or more payload connections are configured to communicate data via the wireless docking host for the selected one or more peripheral functions. | 05-29-2014 |
20140149611 | CHANNEL CONDITION AWARE USB DATA DELIVERY OVER Wi-Fi WITH DIFFERENTIAL TREATMENT ON DISTINCT USB ENDPOINTS - Various aspects of the present disclosure provide frameworks and related mechanisms to provide for Universal Serial Bus/Internet Protocol (USB/IP) data transfer utilizing WiGig Serial Extension (WSE). The frameworks and related mechanisms (1) adapt USB transfers to variations in wireless channel conditions by making suitable adjustments to the USB transfers, e.g., by adjusting the number of outstanding USB transfers and their sizes at the core driver level; (2) administer the admission of USB devices/endpoints based on channel condition and USB requirements by translating USB requirement parameters into 802.11 admission control parameters; and (3) manage multiple USB/IP endpoint sessions with differential treatments above IP using SCTP streams instead of TCP or UDP. | 05-29-2014 |
20140297905 | IMPROVING SERIAL PERIPHERAL PERFORMANCE OVER WIRELESS COMMUNICATION LINKS - A host device receives a Universal Serial Bus (USB) transfer request from a USB host driver, modifies the USB transfer request, encapsulates the modified USB transfer request for transmission via a wireless communication link, transmits the encapsulated modified USB transfer request to a wireless peripheral device via the wireless communication link, receives a transfer response that encapsulates a plurality of USB transfer responses from the wireless peripheral device via the wireless communication link, decapsulates the encapsulated transfer response, and transmits each of the plurality of USB transfer responses to the USB host driver. | 10-02-2014 |
20140344490 | MEDIA TIME BASED USB FRAME COUNTER SYNCHRONIZATION FOR WI-FI SERIAL BUS - A method of transmitting universal serial bus (USB) frames over a communications channel is disclosed. A USB device receives one or more USB frames from a host device via a network, wherein the one or more USB frames are encapsulated in one or more data packets based on a communications protocol associated with the network. The USB device further synchronizes a local clock signal with a clock signal of the host device using a clock synchronization mechanism of the communications protocol. The USB device then determines a number of USB frames transmitted by the host device and processes the one or more USB frames based, at least in part, on the synchronized local clock signal. For some embodiments, the USB device may receive a frame count value and a corresponding media time value from the host device. | 11-20-2014 |
20140370810 | VICINITY-BASED UNDOCKING FOR A WIRELESS DOCKING APPLICATION - This disclosure describes wireless communication techniques, protocols, methods, and devices applicable to a docking system environment in which aspects of wireless docking may function using vicinity-based undocking techniques. In some examples, the techniques of this disclosure enable a wireless docking center to undock a wireless dockee in a situation where a wireless dockee moves out of the vicinity of a wireless docking center so as to prevent malicious users from using peripheral devices available through the wireless docking center to interact with the wireless dockee without the wireless dockee user's knowledge. In other examples, the wireless dockee may undock itself from a wireless docking center when the wireless dockee moves out of the vicinity of a wireless docking center. | 12-18-2014 |