Meru Networks Patent applications |
Patent application number | Title | Published |
20160112903 | SELF-PROVISIONING OF A WIRELESS COMMUNICATION NETWORK USING COORDINATION OF DATA PLANE BEHAVIOR TO STEER STATIONS TO PREFERRED ACCESS POINTS - A wireless communication network is self-provisioned using coordination of data plane behavior to steer stations to preferred access points. To do so, a policy concerning traffic flow for the wireless communication network is received. Data plane traffic flow is monitored at each of the plurality of access points distributed around the wireless communication network. At some point, it may be determined the data plane traffic flow at a first access point from needs to be reduced based on the data plane traffic flow relative to the policy. In response, a station is steered to a preferred access point using OpenFlow rules to affect data plane routing decisions at the access point (e.g., drop, delay, or reprioritize packets). | 04-21-2016 |
20160112886 | ALTERNATIVE NETWORK COMMUNICATION FOR ACCESS POINT TROUBLESHOOTING AND MONITORING - The present description provides methods, computer program products, and systems for alternative network communication for access point troubleshooting and monitoring. When a station has difficulty initiating or maintaining a connection with an access point, or even when performance is suboptimal, alternative network communication is initiated. The issue can be handled by reporting to a troubled access point for self-correction, or by uploading interrogation commands or code for active correction externally by a station. Further actions can be taken, for example, when a station determines through alternative communication that a troubled access point itself has connection issues to a back end network, the station uses a different access point for reporting up to a network admin. Although Wi-Fi and Bluetooth are described herein, other combinations of wireless protocols are implementable. | 04-21-2016 |
20160112878 | DETECTION OF SPOOF ATTACKS ON LOCATION BROADCASTING BEACONS - Spoof attacks on location based beacons are detected. A stream of beacons (e.g., iBeacons) comprising at least a unique source identifier is generated. The stream of beacons is broadcast over a wireless communication channel to mobile devices within range. A list of broadcasted beacons is stored in a table along with a time and location of broadcast. Subsequent to broadcasting, a stream of beacons is detected. The detected beacon stream comprises a unique source identifier along with a time and a location of broadcast. The unique source identifier, the time and the location of at least one beacon of the detected beacon stream can be compared to the unique source identifier, the time and the location of at least one beacon of the broadcast beacon stream. Responsive to a match between the unique source identifiers and a mismatch of at least one of the time and locations, it is determined that the broadcast beacon stream has been spoofed by the detected beacon stream. Once a spoof has been detected, various remediation actions can be taken, such as sending alerts to admin, cautioning end users, and other security mode procedures. | 04-21-2016 |
20160112838 | BEACONS TO ADVERTISE PRESENCE OF NEARBY OBJECTS TO STATIONS IN A WIRELESS COMMUNICATION NETWORK - Beacons (e.g., mBeacons or meruBeacons) to advertise presence of nearby objects to stations in a wireless communication network from an access point are provided. Location of a station connected to the access point is detected. One or more physical objects having a location proximate to the station are identified and can be indicated to a user. To do so, in an embodiment, responsive to the proximity of locations, a beacon having a BSSID corresponding to each of the one or more physical objects is generated. The BSSID can uniquely identify the one or more physical objects. The beacon is transmitted the station which can request additional information concerning the one or more physical objects. For example, an Amazon listing for a nearby retail item can be automatically displayed on a smartphone. | 04-21-2016 |
20160112728 | OPTIMIZING MULTIMEDIA STREAMING IN WLANS (WIRELESS LOCAL ACCESS NETWORKS) - An SDN controller to provision network resources at a data plane to keep progressive downloads of multimedia files proportional to encoding rates is disclosed. Packets from a new or unknown flow being downloaded at a default rate are forwarded from an access point, or other device, to an SDN controller for analysis. If a progressive download of a multimedia file (e.g., a video file) in progress is detected, an encoding rate of frames for the multimedia file is determined. A target download rate for the multimedia file at the access point is determined based on the encoding rate, in an embodiment. Other optional factors also take into account network-wide data plane information gathered by the SDN controller from various points on the network. Additionally, a playback history for a particular multimedia file can affect the target download rate, based on whether, for example, a file is likely to be quickly halted. | 04-21-2016 |
20160112241 | INSTANT MESSENGER APPLICATIONS FOR INTERACTING WITH NETWORK INFRASTRUCTURE DEVICES - Interaction with network infrastructure devices using instant messenger applications is disclosed. A message is received on an instant messenger application executing on the network infrastructure device. The message is sent from an authorized party or instant messenger friend. The message is mapped to one or more commands recognized by an operating system of the network infrastructure. Commands are submitted on a command line interface. A response to the one or more commands from the network infrastructure device is received on the command line interface. The response is sent on the instant messenger to the authorized party. | 04-21-2016 |
20160105824 | DYNAMIC GENERATION OF PER-STATION REALM LISTS FOR HOT SPOT CONNECTIONS - Per-station realm lists are dynamically generating per-station for hot spot connections to access points by roaming stations. A query for a list of realms is received from a roaming station when connecting to a hot spot. Using an MAC address or other station identity, a list of available realms narrowed to a subset of per-station realms sent to the station. Narrowing is performed on-the-fly with respect to at least one aspects. A last N realms are retrieved from a database record searched by MAC address. The list is further narrowed by removing realms that are inaccessible or otherwise recently shown to have bad link quality. Additional ranking factors can narrow or rearrange the realm list based on financial agreements, popularity, trends, and the like. A selection from the list of realms is received from the station. The access point then authenticates the station with the selected realm. If successful, data traffic concerning the station can be forwarded through the hot spot on behalf of the selected realm. | 04-14-2016 |
20160100399 | EMULATING VIRTUAL PORT CONTROL OF AIRTIME FAIRNESS USING PER STATION ENHANCED DISTRIBUTED CHANNEL ACCESS (EDCA) PARAMETERS - A technique for emulating virtual port control of airtime fairness for wireless stations using per station Enhanced Distributed Channel Access (EDCA) parameters. Specific parameters are received for each of a plurality of stations connected to the access point. An EDCA field of a beacon that stores a general EDCA parameter is set to an empty state. The beacon is broadcast to a plurality stations on the wireless communication network and within range of an access point. The beacon comprises a BSSID (Basic Service Set Identifier) for use by the plurality of stations to connect with the access point for access to the wireless communication network. The beacon also comprises an empty EDCA field. In response to broadcasting the empty EDCA parameter, receiving a direct inquiry from each of the plurality of stations for the general EDCA parameter. Each of the plurality of stations is responded to with a direct communication of a specific parameter corresponding to each station. A transmission is received from at least one of the stations complying with the specific parameter. | 04-07-2016 |
20150230231 | STEERING INHERENTLY AUTONOMOUS WIRELESS DEVICES TO ACCESS POINTS BASED ON MIMO (MULTIPLE INPUT/ MULTIPLE OUTPUT) CAPABILITIES OF NETWORK COMPONENTS - Network devices are steered based on VHT (very high throughput) capabilities, a first radio of the plurality of radios is assigned to MU-MIMO (multiple user-multiple input/multiple output) communication. The first radio is capable of communication using MU-MIMO and is backward-compatible for communication using SU-MIMO (single user-multiple input/multiple output). A second radio of the plurality of radios is assigned to SU-MIMO communication. A connection request is received from a network device. A VHT capability of the network device is determined. The VHT capability is based on whether the network device is able to communicate using an MU-MIMO radio. Responsive to a determination that the network device is capable of MU-MIMO communication, the network device is matched to a radio capable of MU-MIMO communication. Responsive to a determination that the network device is not capable of MU-MIMO communication, the network device is matched to a radio capable of SU-MIMO communication. Transmissions are conducted between the network device and the matched radio according to the VHT capability. | 08-13-2015 |
20150124774 | AGGREGATED BEACONS FOR PER STATION CONTROL OF MULTIPLE STATIONS ACROSS MULTIPLE ACCESS POINTS IN A WIRELESS COMMUNICATION NETWORK - A technique for providing per station control of multiple stations in a wireless network across multiple access points. A look-up table that assigns a station connected to the access point and at least one communication parameter to each of a plurality of persistent, uniquely-assigned BSSIDs (Basic Service Set Identifiers) is stored. An access point responds to messages addressed one of the plurality of persistent, uniquely-assigned BSSIDs and ignores messages addressed to other BSSIDs. Persistence of the BSSID allows the controller to maintain individual control over each station after moving to a second access point of the plurality of access points. A frame comprising the plurality of BSSIDs corresponding to each connected station aggregated into the frame is generated. The frame is transmitted to the plurality of stations. Responsive to a station of the plurality of stations being handed-off to a different access point, a uniquely-assigned BSSID corresponding to the station is deleted from the look-up table. | 05-07-2015 |
20150043530 | SEAMLESS MOBILITY IN WIRELESS NETWORKS - For seamless mobility, at least one communication parameter to associate with a BSSID is selected. A beacon is sent from a first access point to advertise its presence, wherein the beacon comprises the BSSID associated with the at least one communication parameter. Responsive to the mobile station choosing the BSSID being advertised in the beacon sent from the first access point, a uniquely assign the BSSID is selected for a mobile station. The first access point from the plurality of access points is associated with the mobile station persistently. Associating is made as selected by the system coordinator, the uniquely assigned BSSID being independent of an identify of mobile station and being eligible for subsequent assignment to a different mobile station as determined by the system coordinator. | 02-12-2015 |
20140204802 | DISTRIBUTED CLIENT STEERING ALGORITHM TO A BEST-SERVING ACCESS POINT - Network devices are steered to preferred access points using a probability function. A probe request for connection is received from a network device. The probe request can be from a network device attempting to use a wireless network (e.g., a IEEE 802.11-type network or other suitable type of network). A probability function that defines a likelihood of granting the network device a connection is used to determine whether to accept or deny the response. The probe response is then sent to the network device. | 07-24-2014 |
20130301443 | DIFFERENTIAL SIGNAL-TO-NOISE RATIO BASED RATE ADAPTATION - Systems and methods for implementing a differential signal to noise ratio (DSNR) based rate adaptation for wireless networks are disclosed. The described methods probabilistically adapt the rate of data transmission based on an assessment of the causes of data loss. The described methods include determining a DSNR for data transmission during a predetermined window of time and adapting the transmission rate in a probabilistic manner responsive to the differential SNR and a differential SNR threshold for the data transmission. | 11-14-2013 |
20130188545 | AUTOMATIC CHANNEL LAYERING - Deploying multiple access points on multiple wireless communication channels to optimize coverage area. Additional channels provide additional communication capability which multiple AP's, and their associated stations, can collectively use. An additional set of AP's can be disposed in the additional communication channel, with multiple communication channels possibly physically intersecting. The system control element collects information from devices in the wireless communication system, and automatically configures which AP is assigned to which communication channel. The system control element determines which AP's are servicing which physical locations, in response to feedback from AP's and stations in those locations. The system control element assigns, or re-assigns, AP's in each physical location, with the effect of optimizing coverage. | 07-25-2013 |
20130148609 | HYBRID VIRTUAL CELL AND VIRTUAL PORT WIRELESS NETWORK ARCHITECTURE - A controller directing access points to default to a virtual cell service mode which allows seamless mobility for stations in motion around a wireless network is disclosed. Responsive to identifying a first station, the controller logic may dictate tighter controls for the first station by selecting a virtual port service mode. Some embodiments can also select a native cell service mode for devices due to a connection history of the station or a MAC OUI that is incompatible with virtual cell service mode. An initial service mode can be changed due to a condition. Also, the controller provides multiple BSSIDs to each access point. | 06-13-2013 |
20110142019 | Seamless Mobility in Wireless Networks - AP's associated with a communication network and any wireless devices desiring contact, operated according to a protocol in which each wireless device selects AP's with which to communicate. A system coordinator causes the AP's to operate so as to guide each wireless device to an AP selected by the system coordinator. This has the effect that, notwithstanding that the protocol involves having the wireless device make the selection of AP, functionally, the AP's make the selection for it. In a 1st technique, multiple AP's share an identifier, with the system coordinator directing one particular AP to respond to the wireless device, thus appearing to wireless devices as a “personal cell”. In a 2nd technique, AP's each maintain identifiers substantially unique to each wireless device, with the system coordinator directing only one particular AP to maintain any particular wireless device's identifier, thus appearing to wireless devices as a “personal AP”. | 06-16-2011 |