Patent application number | Description | Published |
20090254924 | OPERATING SYSTEM INTERFACES FOR VIRTUAL WIFI AND SOFTAP CAPABLE DRIVERS - Some embodiments of the invention provide an interface between programmed instructions (e.g., an operating system) and a miniport driver configured to communicate with radio hardware on a computer. The interface may include components operable to invoke various wireless connectivity-related functionality implemented by the radio hardware and/or miniport driver. The functionality may, for example, include a capability whereby the computer may maintain simultaneous connections on a plurality of wireless networks using a single radio, and/or a capability whereby the computer may function as an access point for a wireless network. | 10-08-2009 |
20090290520 | WIRELESS NETWORK HOST IN SILENT MODE - An access point that implements operating modes in which beacons may be selectively disabled. Beacons may be disabled when no device is actively associated through the access point. Beacons may be enabled in response to one or more triggers, which may include events such as a client forming an association through the access point following a probe request message identifying the access point. In addition, active beaconing may be triggered by user input or may occur during periodic brief intervals that allow client devices to discover the network identifier for the access point. Selective control of beaconing may lead to more effective wireless communication, particularly in areas where users congregate with computers implementing soft APs for personal networks. | 11-26-2009 |
20100115146 | Pairing Service Technologies - Pairing service technologies is described. In embodiment(s), peripheral devices can be discovered, such as by a computer device, and a peripheral device can be configured with multiple services that each correspond to one or more data communication protocols. The multiple services of the peripheral device can be determined, and a pairing sequence can be prioritized for the multiple services. The data communication protocol(s) can then be paired according to the pairing sequence to configure the multiple services of the peripheral device. | 05-06-2010 |
20100157960 | WIRELESS ACCESS POINT SUPPORTING CONTROL BY MULTIPLE APPLICATIONS - A computing device configurable as a wireless network access point that can be controlled from multiple applications. The computing device provides an interface through which applications may input commands to change the state of the access point. The interface responds to these commands and other events, such as association or disassociation of a wireless client, in a manner that does not disrupt the applications or devices using the access point. To determine an appropriate response to any event, the interface may maintain state information, including a count of the number of applications and/or wireless devices that have taken action indicating an operating state of the wireless access point. | 06-24-2010 |
20100165879 | WIRELESS PROVISIONING A DEVICE FOR A NETWORK USING A SOFT ACCESS POINT - A computing device for provisioning a wireless device for connection to a wireless network via a legacy access point. The wireless device supports a wireless protected setup protocol for obtaining the network profile of the network. A user requests the computing device discover wireless devices for provisioning. In response to the user input, the computing device is configured as a soft access point and broadcasts a beacon signal indicating that the access point supports a wireless protected setup protocol, such as Wi-Fi Protected Setup. A request for provisioning is then received by the computing device from the wireless device. A network profile is transmitted from the computing device to the wireless device in accordance with the wireless protected setup protocol. The wireless device may use the profile to connect to the network via the legacy access point using the network profile. | 07-01-2010 |
20130142188 | WIRELESS NETWORK HOST IN SILENT MODE - An access point that implements operating modes in which beacons may be selectively disabled. Beacons may be disabled when no device is actively associated through the access point. Beacons may be enabled in response to one or more triggers, which may include events such as a client forming an association through the access point following a probe request message identifying the access point. In addition, active beaconing may be triggered by user input or may occur during periodic brief intervals that allow client devices to discover the network identifier for the access point. Selective control of beaconing may lead to more effective wireless communication, particularly in areas where users congregate with computers implementing soft APs for personal networks. | 06-06-2013 |
20140187167 | WIRELESS PROVISIONING A DEVICE FOR A NETWORK USING A SOFT ACCESS POINT - A computing device for provisioning a wireless device for connection to a wireless network via a legacy access point. The wireless device supports a wireless protected setup protocol for obtaining the network profile of the network. A user requests the computing device discover wireless devices for provisioning. In response to the user input, the computing device is configured as a soft access point and broadcasts a beacon signal indicating that the access point supports a wireless protected setup protocol, such as Wi-Fi Protected Setup. A request for provisioning is then received by the computing device from the wireless device. A network profile is transmitted from the computing device to the wireless device in accordance with the wireless protected setup protocol. The wireless device may use the profile to connect to the network via the legacy access point using the network profile. | 07-03-2014 |
20140207978 | WINDOWS RALLY WIRELESS HID DEVICE - A system and method that identifies and effectuates communication between a connectable client and a wireless human interface device. The wireless human interface device utilizes technologies to abstract the complexities of IP based wired and wireless networks to provide mechanisms to easily discover, associate, utilize and diagnose the wireless human interface device. Through the ensuing abstraction the wireless human interface device can be associated with an unlimited number of connectable networked clients or hosts thus eliminating the requirement of analog switch boxes to connect human interface devices to each connectable host or client, and further providing for the control of local and/or Internet based hosts or clients. | 07-24-2014 |