Patent application number | Description | Published |
20140210693 | CONNECTIONLESS TRANSPORT FOR USER INPUT CONTROL FOR WIRELESS DISPLAY DEVICES - A sink device in a Wireless Display (WD) system may establish a user input device control communication channel between a source device and sink device in a WD system to allow the sink device to send device control inputs to the source device. The user input device control communication channel may include a reverse channel architecture referred to as the Wi-Fi User Input Back Channel (UIBC) that has been modified to transport one or more additional input types over UDP. For example, UIBC may be extended to transport voice input and VNC input types. | 07-31-2014 |
20140337544 | TRANSPORT MODE FOR WIRELESS SERIAL BUS (WSB) SERVICE - Techniques are described for establishing a Wireless Serial Bus (WSB) service to transport data using a Media Agnostic Universal Serial Bus (MAUSB) protocol according to a selected transport mode in a WSB session of the WSB service. The MAUSB protocol may be deployed either over an Internet Protocol (IP) stack or directly over a Media Access Control (MAC) layer. According to the techniques, the wireless service advertiser and the wireless service seeker negotiate the transport mode for the MAUSB protocol in each WSB session of the WSB service. During a service discovery process, the wireless service advertiser identifies one or more supported transport modes for the MAUSB protocol in service information for the WSB service. During a P2P connection setup and a WSB session setup, the wireless service seeker indicates a selected one of the supported transport modes for the MAUSB protocol in session information for the WSB session. | 11-13-2014 |
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 |
20140349578 | WIRELESS DOCKING ARCHITECTURE - In one example, a method includes performing, by a wireless dockee (WD), a plurality of operations to wirelessly dock with a wireless docking center (WDC) such that the WD may access one or more peripheral functions (PFs) associated with the WDC. In this example, the WD includes a docking service, an application service platform (ASP), and one or more peripheral services that each correspond to at least one PF of the one or more PFs associated with the WDC. In this example, the method also includes interfacing, by the docking service and with the ASP, to perform a first subset of the plurality of operations, and interfacing, by the docking service and with the one or more peripheral services, to perform a second subset of the plurality of operations. | 11-27-2014 |
20140351445 | MAC LAYER TRANSPORT FOR WI-FI DIRECT SERVICES APPLICATION SERVICE PLATFORM WITHOUT INTERNET PROTOCOL - An apparatus comprising a first wireless computing device further comprises a first a memory and at least one processor. The at least one processor may be configured to: establish a Wi-Fi Direct Services (WFDS) connection to a second wireless computing device via a wireless communication channel, responsive to establishing the WFDS connection, establish a WFDS Application Service Platform (ASP) session between the first wireless computing device and the second wireless computing device, wherein the ASP session uses data link layer communications based on media access control (MAC) addresses via the WFDS connection, and does not use internet protocol (IP) communications, and responsive to establishing the ASP session, communicate to the second wireless computing device, using the ASP session. | 11-27-2014 |
20140351475 | WIRELESS DOCKING - In one example, a method includes determining, by a wireless dockee (WD), one or more peripheral functions (PFs) associated with a wireless docking center (WDC). In this example, the method further includes establishing a docking session via a direct wireless connection between the WD and the WDC. In this example, the method further includes selecting, by the WD, at least one PF of the one or more PFs associated with the WDC. In this example, the method further includes accessing, by the WD, the at least one PF of the one or more PFs associated with the WDC. | 11-27-2014 |
20140351476 | UTILIZATION AND CONFIGURATION OF WIRELESS DOCKING ENVIRONMENTS - In one example, a method includes determining, by a wireless dockee (WD), one or more wireless docking environments (WDNs) associated with a wireless docking center (WDC), wherein each WDN of the one or more WDNs corresponds to at least one peripheral function (PF) of one or more PFs that are each associated with the WDC. In this example, the method also includes wirelessly accessing, by the WD, a respective at least one PF corresponding to a particular WDN of the one or more WDNs associated with the WDC. | 11-27-2014 |
20140351927 | ACCESS CONTROL FOR WIRELESS DOCKING - In one example, a method includes receiving, by a wireless docking center (WDC) and from a wireless dockee (WD), a request to access one or more peripheral functions (PFs) associated with the WDC, and receiving, by the WDC and from the WD, one or more authentication credentials. In this example, the method also includes determining, by the WDC, whether or not the one or more authentication credentials received from the WD grant access to the one or more PFs to which the WD requests access. In this example, the method also includes permitting, by the WDC, the WD to access a first PF of the one or more PFs to which the WD requests access in response to determining that the one or more authentication credentials grant access to the first PF. | 11-27-2014 |
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 |