Patent application number | Description | Published |
20110103284 | Managing Router Advertisement Messages to Support Roaming of Wireless Mobile Client Devices - Techniques are provided to manage how router advertisement messages are forwarded for ultimate wireless transmission in a wireless network. In one embodiment, a multicast router advertisement message intended for a virtual local area network is converted into individual unicast router advertisement messages directed to specific wireless mobile client devices that are part of that virtual local area network. In another embodiment, router advertisement messages are routed between controllers according to the current location of a wireless mobile client device. In still other embodiments, techniques are provided to minimize the volume of the router advertisement messages sent over a wireless network, and to proactively send a unicast router advertisement message to a mobile client device that has performed a handoff, without waiting for a router solicitation message. | 05-05-2011 |
20110103344 | Neighbor Discovery Message Handling to Support Roaming of Wireless Mobile Client Devices - Techniques are provided herein to support roaming of wireless mobile client devices from one wireless local area network access point device to another wireless local area network access point device. Neighbor discovery messages are received from wireless mobile client devices. A neighbor discovery message specifies a target address for a neighbor discovery function. A response to a neighbor discovery message is sent to a wireless mobile client device such that the response message appears to have been sent by a wireless mobile client device that has an address that corresponds to the target address of the neighbor discovery message. | 05-05-2011 |
20110274035 | Routing to the Access Layer to Support Mobility of Internet Protocol Devices - Techniques are provided for seamless integration of wired and wireless functionality packet forwarding in network. A plurality of access switches are provided in each of a plurality of mobility sub-domains that are part of a mobility domain of a network. Each access switch serves one or more Internet Protocol (IP) subnets, each comprising a plurality of IP addresses. An access switch obtains an IP address for a wireless device according to the one or more IP subnets that the access switch serves. The access switch sends an association advertisement message to indicate the IP address of the wireless device and to enable other access switches and routers to compute a path to the wireless device. When a wireless device obtains an IP address, it can keep the same IP address as it roams in the mobility domain. | 11-10-2011 |
20110274036 | Maintaining Point of Presence at Tunneling Endpoint for Roaming Clients in Distributed Wireless Controller System - Techniques are provided to support roaming of wireless devices in a network such that the wireless devices can keep their Internet Protocol (IP) addresses as they roam within and across mobility sub-domains. When a wireless device roams from one access switch to another access switch, a tunneling endpoint apparatus in the wireless device's home mobility sub-domain is configured to serve as the point of presence for the roamed wireless device. Traffic for the roamed wireless device is tunneled from the access switch where the wireless device has roamed (where it is currently attached) to the tunneling endpoint apparatus. When the wireless device roams across mobility sub-domains, then traffic is tunneled from the access switch where the wireless device is currently attached to the tunneling endpoint apparatus in that mobility sub-domain (called a “foreign” mobility sub-domain) to the tunneling endpoint apparatus in the wireless device's home mobility sub-domain. | 11-10-2011 |
20110274037 | Hierarchical Control Signaling for Mobile Clients in Distributed Wireless Controller System - A system and method are provided for a hierarchical distributed control architecture to support roaming of wireless client devices. A plurality of access switches are provided and configured to serve one or more Internet Protocol (IP) subnets that comprises a plurality of IP addresses. The plurality of access switches are arranged in switch peer groups such that each access switch within a given switch peer group is configured to store information about other access switches in that switch peer group and about locations of wireless client devices that are associated with any wireless access point on any access switch in the switch peer group. The plurality of access switches are further grouped into a corresponding one of a plurality of mobility sub-domains each comprising a plurality of switch peer groups. A plurality of controller devices are provided, each configured to control access switches in a corresponding mobility sub-domain. Each controller device stores information about the plurality of access switches within its mobility sub-domain and about locations of wireless client devices at access switches in its mobility sub-domain. A central controller device is provided and configured to communicate with the plurality of controller devices for the respective mobility sub-domains. The central controller device is configured to store information about locations of wireless client devices in the mobility sub-domains. | 11-10-2011 |
20110274082 | Maintaining Point of Presence at Access Switch for Roaming Clients in Distributed Wireless Controller System - Techniques are provided to enable support of roaming wireless devices in a network such that the wireless devices can keep their Internet Protocol (IP) addresses as they roam across mobility sub-domains. Traffic for a wireless device that roams is tunneled back to the access switch that serves the IP subnet which includes an IP address for the wireless device. Traffic is tunneled back to that access switch for the wireless device when the wireless device roams to another access switch which does not serve the IP subnet for the wireless device in the same mobility sub-domain and when the wireless device roams to a different mobility sub-domain, in which case the traffic is tunneled between tunneling endpoints in the respective mobility sub-domains. | 11-10-2011 |
20110280213 | Guest Access Support for Wired and Wireless Clients in Distributed Wireless Controller System - Techniques are provided to enable a support for guest access of devices in a network. At a controller apparatus in a first mobility sub-domain of a network comprising a plurality of mobility sub-domains, a request message containing a request for guest network access for a device is received from a first access switch in the first mobility sub-domain. The controller apparatus forwards the request message to a guest controller. At a tunneling endpoint apparatus in the first mobility sub-domain, a tunnel is established to the guest controller to carry traffic between the device and the guest controller. Traffic for the device passes in a tunnel between the first access switch and the tunneling endpoint apparatus in the first mobility sub-domain, through the tunneling endpoint apparatus in the first mobility sub-domain and in the tunnel between the routing apparatus in the first mobility sub-domain and the guest controller. | 11-17-2011 |
20130083691 | METHODS AND APPARATUS FOR A SELF-ORGANIZED LAYER-2 ENTERPRISE NETWORK ARCHITECTURE - In some embodiments, an apparatus includes a network node operatively coupled within a network. The network node is configured to send a first authentication message upon boot up, and receive, in response to the first authentication message, a second authentication message configured to be used to authenticate the network node. The network node is configured to send a first discovery message, and receive, based on the first discovery message, a second discovery message configured to be used by the network node to identify an address of the network node and an address of a core network node within the network. The network node is configured to set up a control-plane tunnel to the core network node based on the address of the network node and the address for the core network node and receive configuration information from the core network node through the control-plane tunnel. | 04-04-2013 |
20130083700 | METHODS AND APPARATUS FOR CENTRALIZED MANAGEMENT OF ACCESS AND AGGREGATION NETWORK INFRASTRUCTURE - In some embodiments, an apparatus comprises a core network node configured to be operatively coupled to a set of network nodes. The core network node is configured to define configuration information for a network node from the set of network nodes based on a template, where the configuration information excludes virtual local area network (VLAN) information or IP subnet information. The core network node is further configured to send the configuration information to the network node. | 04-04-2013 |
20130083724 | METHODS AND APPARATUS FOR A CONVERGED WIRED/WIRELESS ENTERPRISE NETWORK ARCHITECTURE - In some embodiments, an apparatus comprises a core network node and a control module within an enterprise network architecture. The core network node is configured to be operatively coupled to a set of wired network nodes and a set of wireless network nodes. The core network node is configured to receive a first tunneled packet associated with a first session from a wired network node from the set of wired network nodes. The core network node is configured to also receive a second tunneled packet associated with a second session from a wireless network node from the set of wireless network nodes through intervening wired network nodes from the set of wired network nodes. The control module is operatively coupled to the core network node. The control module is configured to manage the first session and the second session. | 04-04-2013 |
20130083725 | METHODS AND APPARATUS FOR ENFORCING A COMMON USER POLICY WITHIN A NETWORK - In some embodiments, an apparatus includes a core network node configured to be operatively coupled to a set of wired network nodes and a set of wireless network nodes. The core network node is configured to receive, at a first time, a first data packet to be sent to a wired device operatively coupled to a wired network node from the set of wired network nodes. The core network node is configured to also receive, at a second time, a second data packet to be sent to a wireless device operatively coupled to a wireless network node from the set of wireless network nodes. The core network node is configured to apply a common policy to the first data packet and the second data packet based on an identifier of a user associated with both the wireless device and the wired device. | 04-04-2013 |
20130083782 | METHODS AND APPARATUS FOR A SCALABLE NETWORK WITH EFFICIENT LINK UTILIZATION - In some embodiments, an apparatus comprises a core network node configured to be operatively coupled to a set of network nodes. The core network node is configured to receive a broadcast signal from a network node from the set of network nodes, which is originated from a host device operatively coupled to the network node. The broadcast signal is sent via a tunnel from the network node to the core network node, such that other network nodes that are not included in the tunnel do not receive the broadcast signal. The core network node is configured to retrieve control information associated with the broadcast signal without sending another broadcast signal, and then send the control information to the network node. | 04-04-2013 |
20130308597 | METHODS AND APPARATUS FOR VIRTUAL SOFT HANDOFF - In some embodiments, a non-transitory processor-readable medium includes code to cause a processor to receive at a tunnel server, a data unit addressed to a communication device, and define, a first instance of the data unit and a second instance of the data unit. The first instance of the data unit is sent to the communication device via a first tunnel defined between at least the tunnel server and a first base station associated with a first network. The second instance of the data unit is sent to the communication device via a second tunnel defined between at least the tunnel server and a second base station associated with a second network. The second instance of the data unit is dropped by the communication device when the first instance of the data unit is received before the second instance of the data unit. | 11-21-2013 |
20140092723 | METHODS AND APPARATUS FOR CONTROLLING WIRELESS ACCESS POINTS - In some embodiments, an apparatus comprises of a first Control And Provisioning of Wireless Access Points (CAPWAP) module implemented in at least one of a memory or a processing device that is configured to be designated as a backup control module for a wireless access point during a first time period. The first CAPWAP control module is configured to receive state information associated with the wireless access point during the first time period from a second CAPWAP control module. The second CAPWAP control module is designated as a primary control module for the wireless access point during the first time period. The first CAPWAP control module is configured to be automatically designated as the primary control module during a second time period after the first time period and in response to the second CAPWAP control module not operating according to at least one predefined criterion. | 04-03-2014 |
20140092884 | METHODS AND APPARATUS FOR A COMMON CONTROL PROTOCOL FOR WIRED AND WIRELESS NODES - In some embodiments, an apparatus comprises of a control module implemented in at least one of a memory or a processing device that is configured to receive, via a network and from a wireless access point or an access network node, a control packet defined based on a control protocol. The control packet is associated with at least one control function of the wireless access point or access network node. The control module is configured to determine a status of an access network node based on the control packet from the access network node. The control module is configured to send via the network, a response to the access network node based on the status of the access network node. | 04-03-2014 |
20140153473 | Managing Router Advertisement Messages To Support Roaming Of Wireless Mobile Client Devices - Techniques are provided to manage how router advertisement messages are forwarded for ultimate wireless transmission in a wireless network. In one embodiment, a multicast router advertisement message intended for a virtual local area network is converted into individual unicast router advertisement messages directed to specific wireless mobile client devices that are part of that virtual local area network. In another embodiment, router advertisement messages are routed between controllers according to the current location of a wireless mobile client device. In still other embodiments, techniques are provided to minimize the volume of the router advertisement messages sent over a wireless network, and to proactively send a unicast router advertisement message to a mobile client device that has performed a handoff, without waiting for a router solicitation message. | 06-05-2014 |
20140348111 | METHODS AND APPARATUS FOR ENFORCING A COMMON USER POLICY WITHIN A NETWORK - In some embodiments, an apparatus includes a core network node configured to be operatively coupled to a set of wired network nodes and a set of wireless network nodes. The core network node is configured to receive, at a first time, a first data packet to be sent to a wired device operatively coupled to a wired network node from the set of wired network nodes. The core network node is configured to also receive, at a second time, a second data packet to be sent to a wireless device operatively coupled to a wireless network node from the set of wireless network nodes. The core network node is configured to apply a common policy to the first data packet and the second data packet based on an identifier of a user associated with both the wireless device and the wired device. | 11-27-2014 |
20150139193 | METHODS AND APPARATUS FOR VIRTUAL SOFT HANDOFF - In some embodiments, a non-transitory processor-readable medium includes code to cause a processor to receive at a tunnel server, a data unit addressed to a communication device, and define, a first instance of the data unit and a second instance of the data unit. The first instance of the data unit is sent to the communication device via a first tunnel defined between at least the tunnel server and a first base station associated with a first network. The second instance of the data unit is sent to the communication device via a second tunnel defined between at least the tunnel server and a second base station associated with a second network. The second instance of the data unit is dropped by the communication device when the first instance of the data unit is received before the second instance of the data unit. | 05-21-2015 |
Patent application number | Description | Published |
20120314590 | ENHANCED PRECODING FEEDBACK FOR MULTIPLE-USER MULTIPLE-INPUT AND MULTIPLE-OUTPUT (MIMO) - A method for reporting uplink control information (UCI) on a user equipment (UE) is described. A first precoding matrix indicator (PMI) corresponding to a multiple-user multiple-input and multiple-output (MU-MIMO) downlink transmission is generated using a first codebook set. A second PMI corresponding to the MU-MIMO downlink transmission is generated using a second codebook set. The first PMI and the second PMI are sent to an eNode B in a channel state information (CSI) report. | 12-13-2012 |
20130021925 | COORDINATED MULTIPOINT (COMP) TRANSMISSION METHOD SELECTION AND FEEDBACK REQUIREMENTS - A method for configuring coordinated multipoint (CoMP) transmission by an eNode B is described. Feedback information is received from a user equipment (UE). A CoMP transmission measurement set is determined. The CoMP transmission measurement set is sent to the UE. A channel state information (CSI) report of the CoMP measurement set is received from the UE. A CoMP transmission method used for each CoMP transmission point in the CoMP measurement set is selected. | 01-24-2013 |
20130039283 | QUANTIZING RELATIVE PHASE AND RELATIVE AMPLITUDE FOR COORDINATED MULTIPOINT (COMP) TRANSMISSIONS - A method for quantizing a relative phase and a relative amplitude is described. A received symbol is obtained. A relative phase is determined from the received symbol. A relative amplitude is also determined from the received symbol. A quantized relative phase is obtained for the relative phase. A quantized relative amplitude is obtained for the relative amplitude. | 02-14-2013 |
20130073671 | OFFLOADING TRAFFIC TO DEVICE-TO-DEVICE COMMUNICATIONS - Methods and apparatus, including computer program products, are provided for offloading data to D2D communication links. The method may include processing information indicating at least one or more data locations representing at least one or more candidate locations where data is stored; determining at least one or more device locations representing one or more devices accessible by a wireless device-to-device communication link; determining, based on the one or more data locations and the one or more device locations, a local device from which to access the data; and accessing the data at the determined local device. Related apparatus, systems, methods, and articles are also described. | 03-21-2013 |
20130078924 | Frequency Band Selection - There is provided a method including obtaining, by a database entity, a-priori channel occupancy rate information of at least one channel from at least one of an entity of a primary system and an entity of a secondary system, wherein a database of the database entity includes information on white space channels, and availing the channel occupancy rate information to the secondary users in order to assist the secondary user to select a channel from the database. | 03-28-2013 |
20130114491 | Medium Access Control Enhancements - The exemplary embodiments enable setting one or more devices of a wireless communication network to be associated with a one or more groups of a plurality of groups based on at least a device type of the one or more devices, receiving at least one indication that one or more devices have data to send, and allocating, one group at a time, resources to the groups associated with the devices with data to send. Further, receiving a probe message from a network node, the probe message identifying one or more groups set to the device based at least on a device type, sending, information to the node, the information providing an indication that data is required to be sent, and in response to the sending, receiving a resource allocation from the node to send the data, wherein the resource allocation is arranged based on the groups set to the device. | 05-09-2013 |
20130136066 | Medium Access Control Method Enhancement - The exemplary embodiments provide at least a method of receiving, by a node of a wireless communication network, more than one indication of data required to be sent from devices in the network, determining that provisioning resources to send the data in response to each of the more than one indication exceeds at least one threshold, and based on the determining, sending a probe message including a priority constraint to the devices. Further, receiving, at a device of a wireless communication network, a probe message from a network node of the network, the probe message identifying a priority constraint, sending, by the device, an acknowledgement to the probe message, the acknowledgment indicating that the device has data to send which meets or exceeds the priority constraint identified in the probe message, and in response to the acknowledgment, receiving from the network node a resource allocation to send the data. | 05-30-2013 |
20130176998 | Mechanism For Coexistence Between Wireless Networks - In accordance with the exemplary embodiments there is at least a method performed with an apparatus of a wireless communication network including sensing information regarding at least one coexisting network, and sending the information in a header of a media access control frame to a network node of the wireless communication network. In addition, in accordance with the embodiments, there is at least a method performed with an apparatus of a wireless communication network including receiving sensing information regarding at least one coexisting network in a header of a media access control frame from at least one device of the wireless communication network, determining, using at least the sensing information, occupancy information regarding one or more coexisting networks of the wireless communication network, and sending the occupancy information to one or more devices of the wireless communication network. | 07-11-2013 |
20130229959 | METHOD AND APPARATUS FOR GROUP SYNCHRONIZED CHANNEL ACCESS WITH TIM SEGMENTATION - A method includes receiving indications of a wake-up interval assigned to a station and a corresponding group to which the station belongs, wherein all stations assigned to the group are assigned the wake-up interval. The method includes waking the station during the wake-up interval and determining, using at least the indication of the group, whether information received by the station during the wake-up interval corresponds to the group. Another method includes assigning stations to one of multiple groups based on wake-up intervals, in which stations assigned to a group all have a same wake-up interval and each group has a different wake-up interval, sending indications of a corresponding wake-up interval and a corresponding group to each of the stations, and during a interval corresponding to the wake-up interval for a selected group, transmitting the indication of the selected group and associated information meant for the group. | 09-05-2013 |
20130294261 | METHOD, APPARATUS, AND COMPUTER PROGRAM PRODUCT FOR EFFICIENT TIM COMPRESSION AND DECODING - Method, apparatus, and computer program product embodiments improve power saving in network environments. An example method embodiment comprises: generating in an access point device, a traffic indication map comprising a page bitmap field, a page control field, one or more block bitmap fields, and one or more sub-block bitmaps indicating wireless client devices having buffered data in the access point device available for them; and periodically broadcasting the traffic indication map in a beacon frame to the wireless client devices. | 11-07-2013 |
20130294427 | Method And Apparatus For Signaling Sequence Root - A first access node of a first network utilizes code sequences, assigned to different user devices, to distinguish at least acknowledgements received in parallel or sequentially from those user devices. The first access node determines from received signaling that a root sequence of the code sequences is in use by a second access node of a second network, then changes that root sequence of the code sequences assigned to the different user devices. In certain examples the access nodes are WLAN access points APs and the acknowledgements are received in response to a group probe/poll. In various embodiments the first AP monitors its neighbors' group probes/polls to learn the root sequences/basic service sets in use in those neighbor networks, or the AP's own stations monitor and send the information in neighbor reports. This latter option can be initiated by the stations themselves, or by the AP. | 11-07-2013 |
20130301605 | METHOD, APPARATUS, AND COMPUTER PROGRAM PRODUCT FOR RESOURCE ALLOCATION FOR SEQUENTIAL/PARALLEL WIRELESS MESSAGES - Method, apparatus, and computer program product embodiments provide signaling mechanisms for wireless networks composed of a large number of stations. An example method embodiment comprises: receiving by a wireless client device, a first message from an access point device, the first message comprising information related to resource allocation that at least partly indicates a resource allocation in time-frequency space for the wireless client device; decoding by the wireless client device, the information related to resource allocation, using a connection identifier that identifies the wireless client device within a wireless network managed by the access point device, to obtain the resource allocation in time-frequency space; and transmitting by the wireless client device to the access point device, a second message using the resource allocation in time-frequency space. | 11-14-2013 |
20130336234 | Medium Access Control Method - The exemplary embodiments of the invention relate to at least a method including receiving an indication that a first resource allocation to a device to transmit data was insufficient and there is remaining data to transmit by the device, based at least on information associated with the first resource allocation, determining a second resource allocation for the device, and sending the second resource allocation to the device in order to enable the device to transmit the remaining data. Further, there is a method including sending an indication that a first resource allocation to a device to transmit data was insufficient and there is remaining data to transmit, and in response to the sending, receiving a second resource allocation to the device to enable the device to transmit remaining data, wherein the second resource allocation is based at least on information associated with the first resource allocation. | 12-19-2013 |
20140003414 | METHOD, APPARATUS, AND COMPUTER PROGRAM PRODUCT FOR RESOLVING HIDDEN NODE IN SYNCHRONIZED DCF BASED CHANNEL ACCESS | 01-02-2014 |
20140071959 | METHOD, APPARATUS, AND COMPUTER PROGRAM PRODUCT FOR COEXISTENCE OF WIRELESS NETWORKS - Embodiments of the invention provide signaling mechanisms for wireless networks composed of a large number of stations. An example method embodiment comprises: receiving by a short-range access point in a basic service set, a beacon from a long-range access point in an overlapping basic service set, indicating a beginning and ending of a first quiet interval for short-range stations associated with the short-range access point; and transmitting by the short-range access point, a broadcast control frame, notifying the long-range access point of a second quiet interval for long-range stations associated with the long-range access point, the broadcast control frame further notifying the short-range stations associated with the short-range access point that they may access and transmit data during the second quiet interval. | 03-13-2014 |
20140126461 | METHOD, APPARATUS, AND COMPUTER PROGRAM PRODUCT FOR RELAY OPERATION IN WI-FI NETWORKS - Embodiments of the invention provide signaling mechanisms for wireless networks composed of a large number of stations. An example method embodiment comprises: determining, by a wireless relay device, a first time window allocated for a first network, allowing first maximum transmit power for packet transmissions; and determining, by the wireless relay device, a second time window allocated for a second network, wherein the second time window is allowed for transmissions also within the first network, but only with second maximum transmit power that is lower than the first maximum transmit power. | 05-08-2014 |
20140153415 | METHOD, APPARATUS, AND COMPUTER PROGRAM PRODUCT FOR SIGNALING FOR SECTORIZED BEAM OPERATION IN WIRELESS NETWORKS - Method, apparatus, and computer program product embodiments configure channel access windows in overlapping network environments. An example method embodiment comprises: transmitting, by an access node, a measurement request to an associated wireless device, to perform measurements of signals received from other access nodes to which the device is not associated, the device being a member of a group of devices based on transmission by the access node to the device, of a directional beacon frame; receiving from the device, a measurement response comprising information on a directional message with an access node identifier of another access node to which the device is not associated; and determining a time window that may be used by devices that are members of the group, for transferring data between members of the group and the access node, based at least partly on the measurement response. | 06-05-2014 |
20140199991 | METHODS AND APPARATUSES FOR LTE SIGNAL DETECTION AND CLASSIFICATION BY A Wi-Fi RECEIVER - Methods, apparatuses, and computer program products for signal detection and classification are provided. One method includes detecting, by a station, a presence of a signal and classifying the signal according to type. There may be at least three possibilities for the type of signal. The classifying may include performing a composite hypothesis test, such as a generalized likelihood ratio test (GLRT) for the at least three possibilities. | 07-17-2014 |
20140334387 | METHOD, APPARATUS, AND COMPUTER PROGRAM PRODUCT FOR PROTECTING SHARED TRANSMISSION OPPORTUNITY - Embodiments of the invention provide signaling mechanisms for wireless networks composed of a large number of stations. An example method embodiment comprises: receiving, by a first apparatus, a request-to-send frame for a transmission opportunity from a second apparatus; transmitting, by the first apparatus, a first clear-to-send frame for a shared transmission opportunity to the second apparatus; receiving, by the first apparatus, a second clear-to-send frame as response to the first clear-to-send frame from a third apparatus; receiving a data frame from the second apparatus during the shared transmission opportunity; and forwarding the data frame to the third apparatus during the same shared transmission opportunity. | 11-13-2014 |
20140335871 | METHOD, APPARATUS, AND COMPUTER PROGRAM PRODUCT FOR ENABLING NAV PROTECTION FOR RESTRICTED ACCESS WINDOW - Embodiments of the invention provide signaling mechanisms for wireless networks composed of a large number of stations. An example method embodiment comprises: receiving, by a station in an access network, a frame from another station in the access network or from an overlapped access network, indicating time restrictions for reserving a wireless medium, the frame including an indication in a first portion of the frame, indicating the presence of the time restrictions for reserving the wireless medium; and decoding, by the station, at least a second portion occurring after the first portion of the received frame, to determine the time restrictions for reserving the wireless medium, in response to the indication. | 11-13-2014 |
20150063128 | METHOD, APPARATUS, AND COMPUTER PROGRAM PRODUCT FOR WIRELESS SIGNALING - Embodiments of the invention provide signaling mechanisms for wireless networks composed of a large number of stations. An example method embodiment comprises: storing, by a wireless device, a prior channel estimate that was previously transmitted to another wireless device in a wireless network; receiving, by the wireless device, a request message from the other device, to determine a distortion between a current channel estimate and the prior channel estimate and compare the determined distortion to a distortion threshold value, the request message being a broadcast request message or a measurement request message and the distortion value being either included in the request message, received in another message, or a preconfigured value; determining, by the wireless device, the distortion between the current channel estimate and the prior channel estimate and comparing the determined distortion to the distortion threshold value; and transmitting, by the wireless device, one or more parallel or sequential messages to the other device, indicating presence of the determined distortion greater than the distortion threshold value or indicating an inability to determine a distortion in channel estimates. | 03-05-2015 |
20150071180 | COMMUNICATION EFFICIENCY - There is provided a method, comprising: receiving, by a target node of a wireless access network, a signal from a first source node; determining the angular sector in which the first source node is located with respect to the target node; responding to the signal by both transmitting a first message omni-directionally and transmitting a second message directionally towards the angular sector; and establishing a first resource reservation on a frequency channel at least partly on the basis of transmitting the first message and the second message, wherein the first resource reservation is for performing directional data transfer with the first source node. | 03-12-2015 |
20150071262 | Method and Apparatus for Signaling That Stations are Awake and Ready to Receive Data - A method, apparatus and software configured to compile a traffic indication message indicating downlink traffic is waiting for a plurality of users; and only for each nth ones of the users for which a response to the traffic indication message is received, the response identifying the nth user in a time period corresponding to a portion of the traffic indication message which indicates downlink traffic is waiting for that user, schedule the downlink traffic in each nth slot corresponding to the time period. A method, apparatus and software configured to determine that a received traffic indication message indicates downlink traffic is waiting for a particular user; map a portion of the traffic indication message, that indicates the downlink traffic is waiting for the particular user, to an uplink time period; and send, in the mapped uplink time period, a response indicating that the particular user is awake. | 03-12-2015 |
20150078259 | Interference Avoidance between Overlapping Wireless Networks - This document discloses a solution for reducing interference between wireless networks. According to an aspect, a method comprises: acquiring, by an access node of a first wireless network from at least one node of the first wireless network, information on at least one interfering node of a second wireless network; generating, by the access node, mapping information between the node of the first wireless network and said at least one interfering node; and causing, by the access node, transmission of the mapping information to another access node of the second wireless network. | 03-19-2015 |
20150117418 | COMMUNICATION EFFICIENCY - There is provided a method, comprising: detecting, by a node of a first wireless network, that at least one overlapping second wireless network is configured to apply contention periods and contention-free periods for communicating with different subsets of devices; detecting that a contention period timing applied by the at least one overlapping second wireless network is not aligned with a contention period timing applied by the node of the first wireless network; and causing a modification of the contention period timing in at least one of the wireless networks in order to have the contention periods to take place at least partly at the same time in each overlapping wireless network. | 04-30-2015 |
20150124706 | Method and Apparatus for Signaling Sequence Root - A first access node of a first network utilizes code sequences, assigned to different user devices, to distinguish at least acknowledgements received in parallel or sequentially from those user devices. The first access node determines from received signaling that a root sequence of the code sequences is in use by a second access node of a second network, then changes that root sequence of the code sequences assigned to the different user devices. In certain examples the access nodes are WLAN access points APs and the acknowledgements are received in response to a group probe/poll. In various embodiments the first AP monitors its neighbors' group probes/polls to learn the root sequences/basic service sets in use in those neighbor networks, or the AP's own stations monitor and send the information in neighbor reports. This latter option can be initiated by the stations themselves, or by the AP. | 05-07-2015 |
20150124712 | METHODS AND APPARATUS FOR WIRELESS NETWORKING - Systems and techniques for management of wireless network transmission. A high efficiency wireless network that can operate using a contention free period defines an interframe space that is shorter than the interframe space used in legacy networks, so that a legacy network will be unable to contend for the medium if the high efficiency wireless network transmits during the contention free period. Before the contention free period begins, a high efficiency network element examines a transmission medium, and if an ongoing transmission extends into the contention free period, transmission by the high efficiency network is delayed until the end of the ongoing transmission. The high efficiency wireless network uses an interframe space sufficiently short that a legacy network cannot contend for the medium. After the contention free period, the high efficiency network uses an interframe space value on the order of that used by the legacy network. | 05-07-2015 |
20150264578 | Method And Apparatus To Coordinate Simultaneous Transmission In Overlapping Wireless Networks - In one aspect the embodiments of the invention provide a method that includes transmitting a first frame comprising a first type of message from a first node for reception by a second node. The first node is associated with a first wireless communication system and the second node is associated with a second wireless communication system. The first type of message includes a first information element for identifying the second node and a second information element for specifying that the first frame is transmitted to initiate a request for simultaneous transmission by the first node and by the second node. The first frame is also received by a third node that is part of the first wireless communication system. The method further includes receiving from the third node a second frame that includes a second type of message. The second type of message identifies the second node and specifies, based on a measurement performed by the third node on the first frame and a measurement performed by the third node on a third frame transmitted by the second node, whether the request for simultaneous transmission is accepted or is not accepted by the third node. The method further includes transmitting a fourth frame that includes the second type of message from the first node for reception by the second node. The second type of message identifies the second node and specifies that the request for simultaneous transmission was accepted by the third node. | 09-17-2015 |
20150264617 | Methods and Apparatus for Wireless Networking - Systems and techniques for managing interference in wireless networking environments. Stations waiting to transmit are controlled so as to avoid undue interference with transmitting stations—for example, by restricting the use of a higher CCA threshold or otherwise requiring deference. Low power transmitting stations may be identified so that a monitoring station will defer its transmission even if the transmitting station is not in the monitoring station's BSS. Alternatively or in addition, stations may be configured to manage behavior that has a higher interference potential—such as by restricting the duration for which a station may use a higher CCA threshold. | 09-17-2015 |