Patent application number | Description | Published |
20100008276 | POWER SAVE MODE FOR ACCESS POINTS - An access point includes a detection module and a control module. The detection module determines whether a client station communicates with the access point during a predetermined period of time. The access point initially operates in a normal mode during the predetermined period of time. The control module transitions the access point from the normal mode to a power save mode based on whether the client station communicates with the access point during the predetermined period of time. | 01-14-2010 |
20100008277 | PARTIAL POWER SAVE MODE FOR ACCESS POINTS DURING DEVICE DISCOVERY - An access point includes a beacon module and a control module. The access point transmits a beacon during a beacon interval. The beacon module determines a first portion of the beacon interval and a second portion of the beacon interval. The access point operates in a normal mode during the first portion of the beacon interval. The control module operates the access point in a power save mode during the second portion of the beacon interval. The control module operates the access point in the power save mode in response to a client station not communicating with the access point during the first portion of the beacon interval. | 01-14-2010 |
20100010899 | SERVICE DISCOVERY METHODS - Aspects of the disclosure provide a method for service discovery. The method includes receiving a first service advertisement by a first device. The first service advertisement includes at least a service of a second device. Further, the method include updating a service directory of the first device to include the service of the second device, and transmitting a second service advertisement by the first device. The second service advertisement includes at least the service of the second device, and can be used by a third device to effect use of the service of the second device. | 01-14-2010 |
20100011231 | ACCESS POINT ROTATION FOR SHARING POWER LOAD - Aspects of the disclosure provide a method for sharing power load in a network. The method includes identifying a first device to serve as an AP of the network in a next time interval, providing network information from a second device that presently serves as the AP to the first device. When the first device starts to serve as the AP of the network, the second device can be configured to enter into a power save state in order to reduce power consumption by the second device in the next time interval. | 01-14-2010 |
20100054154 | IP ASSIGNMENT SCHEME FOR DYNAMIC PEER-TO-PEER NETWORKS - An approach for assigning IP network addresses and for performing name resolution and service discovery in infrastructure mode and/or ad-hoc mode peer-to-peer networks. The size of an ad-hoc network and/or the size of infrastructure network basic service sets may be limited to a selected number of peer stations. A first portion of an IP network address assigned to stations joining a network may be predetermined by the network to be joined and a second portion of the IP network address may be selected dynamically, as each new station joins the network. Stations may generate layer 2 messages that include an information element containing information that supports peer-to-peer service discovery, name resolution and IP network address assignment across multiple ad-hoc and infrastructure networks. A peer-to-peer station may dynamically connect to available ad-hoc or infrastructure networks to access required services, as needed. | 03-04-2010 |
20120115538 | TRANSMIT POWER AMPLIFICATION CONTROL FOR WIRELESS DEVICE - A system and method are disclosed for controlling transmit power amplification in a wireless transmitting device. A processor receives data to determine whether a communication channel from a transmitting device to a receiving device is strong enough to support a target data transmit rate of the devices with a power amplifier either on or off. The processor controls a switching device between a data transmitter circuit and the transmitter's antenna based on the quality of the communication channel. In a first state, the switching device connects the data transmitter circuit to the power amplifier to increase the strength of the signal communicated to the antenna. In a second state, the switching device bypasses the power amplifier. The power amplifier is turned off when the switch is in the second state, thereby decreasing the power consumed by the transmitting device as it transmits data at the target data transmit rate. | 05-10-2012 |
20130005386 | Wi-Fi BASED GEO-LOCATION CONNECTIVITY - A wireless device capable of matching a user with content based on the user's proximity to other users, by searching for a match between profiles of wireless devices within a wireless coverage area. Wireless devices broadcast profiles within a wireless coverage area. Other wireless devices within the wireless coverage area receive the broadcasted profiles, determine a match between the received profile and a profile stored on the wireless device, and display a match indicator if a match is determined. In this manner, a user having a wireless device may be matched with content based on the user's proximity to other users. | 01-03-2013 |
20130279388 | ACCESS POINT ROTATION FOR SHARING POWER LOAD - Aspects of the disclosure provide a method for sharing power load in a network. The method includes identifying a first device to serve as an AP of the network in a next time interval, providing network information from a second device that presently serves as the AP to the first device. When the first device starts to serve as the AP of the network, the second device can be configured to enter into a power save state in order to reduce power consumption by the second device in the next time interval. | 10-24-2013 |
20130344912 | TRANSMIT POWER AMPLIFICATION CONTROL FOR WIRELESS DEVICE - A system and method are disclosed for controlling transmit power amplification in a wireless transmitting device. A processor receives data to determine whether a communication channel from a transmitting device to a receiving device is strong enough to support a target data transmit rate of the devices with a power amplifier either on or off. The processor controls a switching device between a data transmitter circuit and the transmitter's antenna based on the quality of the communication channel. In a first state, the switching device connects the data transmitter circuit to the power amplifier to increase the strength of the signal communicated to the antenna. In a second state, the switching device bypasses the power amplifier. The power amplifier is turned off when the switch is in the second state, thereby decreasing the power consumed by the transmitting device as it transmits data at the target data transmit rate. | 12-26-2013 |
20140056199 | Power Saving Mode for access point - An access point including a beacon module that determines a beacon interval and that defines a first portion and a second portion of the beacon interval during which the access point operates in a normal mode and a power save mode, respectively. On receiving a communication from a client station during the first portion, a control module does not transition the access point from the normal mode to the power save mode at an end of the first portion. If the communication is not received during the first portion, the control module transitions the access point from the normal mode to the power save mode at the end of the first portion and from the power save mode to the normal mode at an end of the second portion. A duration of the second portion is less than a scan time of the client station. | 02-27-2014 |
20140258550 | AUTOMATIC AD-HOC NETWORK CREATION AND COALESCING USING WPS - A device previously configured as a registrar and that has established an independent ad-hoc network is automatically discovered by another device also previously configured as a registrar. To form an ad-hoc wireless network between these two devices, each device periodically enters a scanning mode to scan for and intercept beacons transmitted by the other device. Upon such interception, one of the devices becomes an enrollee in accordance with a predefined condition and in response to a user selected option. Subsequently, the enrollee modifies its beacons to include an attribute, such as the MAC address, associated with the other device. After intercepting the modified beacon, the remaining registrar prompts it user to decide whether to allow the enrollee to join the registrar's network. If the user responds affirmatively, a handshake is performed between the two devices and a subsequent attempt is made by the enrollee to join the registrar's network. | 09-11-2014 |