Patent application number | Description | Published |
20090052395 | Femto-BTS RF access mechanism - Femto cells that extend mobile network coverage into customer premises operate in a frequency band typically assigned to a macro network. As disclosed, to facilitate system discovery and registrations of mobile stations with femto cells, a carrier designates one the channels within the band as a primary channel for its femto cells. For example, neighbor list messages transmitted by macro network base stations can provide frequency and PN code information directing mobile stations to search the primary channel for a PN code of the femto cells. Also, a mobile station PRL may identify femto cells by SID/NID. The SID is that of the carrier's macro network, whereas the NID may be a NID of the macro network or one specifically assigned to femto cell operations. The PRL uses frequency acquisition information for the femto cells that is the same as or similar to that for one of the macro networks. | 02-26-2009 |
20090061873 | Active service redirection for a private femto cell - A femto cell at a customer premises, such as an IP-based femto Base Transceiver System (IP-BTS), can be configured as a “private access” node intended to service a limited set of mobile stations. However, mobile stations not associated with the private femto cell may acquire and lock onto the femto BTS. To avoid service blockages in such cases, the private femto BTS will allow call access attempts by, and call deliveries to, a non-associated mobile station, despite the “private access” configuration. However, upon completion of call set-up, the non-associated mobile station is directed to initiate handoff, from the private femto cell coverage provided by the femto BTS into a cell coverage of a base station of the macro network, to conserve femto cell resources for use in servicing calls of the associated mobile station(s). | 03-05-2009 |
20120094658 | ENTERPRISE FEMTOCELL SIGNALING - A mobile device sends a request for a unique wireless network session identifier and receives, based on the request, the unique wireless network session identifier. The mobile device determines whether the unique wireless network session identifier includes a femtocell identifier. The mobile device applies one set of configuration settings when the unique wireless network session identifier includes the femtocell identifier, and applies a different set of configuration settings when the unique wireless network session identifier does not include the femtocell identifier. | 04-19-2012 |
20120108234 | FEMTO-BTS RF ACCESS MECHANISM - Femto cells that extend mobile network coverage into customer premises operate in a frequency band typically assigned to a macro network. To facilitate system discovery and registrations of mobile stations with femto cells, a carrier designates one the channels within the band as a primary channel for its femto cells. For example, neighbor list messages transmitted by macro network base stations can provide frequency and PN code information directing mobile stations to search the primary channel for a PN code of the femto cells. The mobile station preferred roaming list (PRL) may identify femto cells by SID/NID. The SID is that of the carrier's macro network, whereas the NID may be a NID of the macro network or one specifically assigned to femto cell operations. The PRL uses frequency acquisition information for the femto cells that is the same as or similar to that for one of the macro networks. | 05-03-2012 |
20120149387 | DETECTING MOBILE DEVICE USAGE WITHIN WIRELESS NETWORKS - A device sends, to a mobile device, instructions to collect location-based data associated with calls conducted by the mobile device over a wireless access network and receives, from the mobile device, the location-based data, where the location-based data includes a three-dimensional location and a time associated with each of multiple calls conducted by the mobile device over the wireless access network. The device combines the location-based data with other location-based data from other mobile devices and identifies, based on the combined location-based data and other location-based data, a localized area of congestion for the wireless access network. | 06-14-2012 |
20120166617 | GLOBAL REAL-TIME NETWORK RESOURCE AND TIMER SYNCHRONIZATION - A device receives, from multiple network elements, status information for a user equipment (UE) connection associated with a wireless core network and updates, based on the status information received from the network elements, a database record for the UE connection. The device receives, from an application server, a request for information associated with the UE connection and constructs, based on the request and from the database record, a resource message that includes real-time information about the UE connection. The device sends the resource message to the application server. The device also provides a disconnect message to the application server and/or the network elements when the status information received from the network elements indicates that the UE has been disconnected from the wireless core network. | 06-28-2012 |
20120173729 | WIRELESS NETWORK CLOUD COMPUTING RESOURCE MANAGEMENT - A method, performed by a server device, may include receiving a request to activate an application session, the request being received from a user equipment on behalf of a particular application installed on the user equipment. The method may further include determining one or more application requirements associated with the particular application; determining conditions associated with one or more application servers; selecting a particular one of the one or more application servers based on the determined one or more application requirements and based on the determined conditions; and setting up the application session between the user equipment and between the selected particular one of the one or more application servers. | 07-05-2012 |
20120244830 | ACTIVE SERVICE REDIRECTION FOR A PRIVATE FEMTO CELL - A femto cell at a customer premises, such as an IP-based femto Base Transceiver System (IP-BTS), can be configured as a “private access” node intended to service a limited set of mobile stations. However, mobile stations not associated with the private femto cell may acquire and lock onto the femto BTS. To avoid service blockages in such cases, the private femto BTS will allow call access attempts by, and call deliveries to, a non-associated mobile station, despite the “private access” configuration. However, upon completion of call set-up, the non-associated mobile station is directed to initiate handoff, from the private femto cell coverage provided by the femto BTS into a cell coverage of a base station of the macro network, to conserve femto cell resources for use in servicing calls of the associated mobile station(s). | 09-27-2012 |
20120258711 | FEMTO-BTS RF ACCESS MECHANISM - Femto cells that extend mobile network coverage into customer premises operate in a frequency band typically assigned to a macro network. To facilitate system discovery and registrations of mobile stations with femto cells, a carrier designates one the channels within the band as a primary channel for its femto cells. For example, neighbor list messages transmitted by macro network base stations can provide frequency and PN code information directing mobile stations to search the primary channel for a PN code of the femto cells. The mobile station preferred roaming list (PRL) may identify femto cells by SID/NID. The SID is that of the carrier's macro network, whereas the NID may be a NID of the macro network or one specifically assigned to femto cell operations. The PRL uses frequency acquisition information for the femto cells that is the same as or similar to that for one of the macro networks. | 10-11-2012 |
20120314641 | MULTICAST-UNICAST HANDOFF SERVICES - A system may receive, from a user device, a request to receive content via a first base station, where the content was previously being received, as multicast content, via a second base station; determine, in response to the request, whether the first base station can process multicast content; transmit a copy of the content, to the user device via the first base station, as multicast content, based on a determination that the first base station can process multicast content; and transmit the content, to the user device via the first base station, as unicast content, based on a determination that the first base station cannot process multicast content. | 12-13-2012 |
20130003652 | SPLIT USAGE OF RADIO ACCESS NETWORKS WITH IMS - Different access networks may perform signaling and data delivery (bearer connection) for communication services. A device may determine, in response to a request for a service from a user of the device, whether the device is connected to a non-cellular access network. The device may transmit, when it is determined that the device is connected to the non-cellular access network, one or more control messages, relating to establishment of the service, using the non-cellular access network. The device may transmit, when it is determined that the device is not connected to the non-cellular access network, the one or more control messages, using a cellular access network. The device may establish, with a party with which the service is to connect, a bearer connection for the service over the cellular access network. | 01-03-2013 |
20130044603 | RADIO ACCESS NETWORK TECHNOLOGY OPTIMIZATION BASED ON APPLICATION TYPE - A mobile device may monitor availability of access networks that provide connectivity for the mobile device. The mobile device may also store preference information, on a per-application basis, relating to preferences for using the access networks by applications executed by the mobile device. The mobile device may additionally select, in response to a request from an application to connect to the network, one of the access networks, based on the preference information for the application; and provide a communication channel for the application using the selected access network. | 02-21-2013 |
20130044614 | ACCESSING AN APPLICATION BASED ON A LEVEL OF SERVICE QUALITY - A user device receives an instruction to access an application, of one or more applications being provisioned via one or more base stations; obtains service quality information, associated with the application, where the service quality information identifies one or more quality thresholds associated with one or more frequency bands to be used to access the application; measures a first level of service quality associated with traffic being received via a first frequency band and a second level of service quality associated with traffic being received via a second frequency band; and accesses the application using one of the first frequency band or the second frequency band based on a determination that another one of the first level of service quality or the second level of service quality is less than a threshold, of the one or more quality thresholds. | 02-21-2013 |
20130044694 | USING USER DEVICE FEED BACK TO DYNAMICALLY ALLOCATE NETWORK RESOURCES FOR PROVISIONING SERVICES - A system may receive, from one or more user devices, service information that identifies applications that are being accessed by the user devices and levels of service quality, received by the user devices, when accessing the applications; identify, based on the service information, that a user device is accessing an application at a level of service quality that is less than a threshold; assign, one or more quantities of bandwidth, to the applications, based on the service information; and transmitting, to the base station, scheduling information that identifies how the quantities of bandwidth are assigned to the applications, where transmitting the scheduling information allows the base station to use a quantity of bandwidth, assigned to the application, to provide the application to the user device at a level of service quality that is not less than the threshold. | 02-21-2013 |
20130051331 | DYNAMIC ALLOCATION OF NETWORK RESOURCES FOR PROVISIONING SERVICES TO USER DEVICES - A device may receive, from a base station, information that identifies traffic conditions within the base station; and may assign one or more different frequency bands to each of one or more applications being provisioned, by the base station, to one or more user devices based on the information that identifies the traffic conditions within the base station. The device may also generate allocation information that identifies how the different frequency bands are allocated to each of the applications; and transmit, via the base station, the allocation information to the user devices, where transmitting the allocation information allows a user device to identify a frequency band with which to obtain an application. | 02-28-2013 |
20130065632 | DYNAMIC HANDOFF PARAMETERS IN A WIRELESS NETWORK - A mobile device may determine applications that are executed by the mobile device. The mobile device may further determine handoff parameters, relating to performance of a handoff operation in a cellular network. The handoff parameters may be determined based on the applications being executed by the mobile device. A handoff operation may be performed based on the determined handoff parameters. | 03-14-2013 |
20130072167 | OPTIMIZING DELIVERY OF STREAMS - A device receives, from one or more base stations, first information about bandwidth resources of the one or more base stations. The device further receives, from one or more content providers, second information about streams of content provided by the one or more content providers to user devices via the one or more base stations. The device generates third information based on the first information and the second information. The third information assigns a portion of the bandwidth resources to each one of the streams. The device transmits the third information to configure the one or more base stations. | 03-21-2013 |
20130078925 | OPTIMIZING USE OF NETWORK RESOURCES BY SMALL CELLS AND/OR USER DEVICES OF A VENUE - A device receives first information about a wireless communication service within a venue. The device further receives, from one or more small cells within the venue, second information about traffic load of the one or more small cells. The device generates third information based on the first information and the second information. The third information assigns network resources to one or more services provided to mobile devices, within the venue, via the small cells. The device transmits the third information to configure the one or more small cells. | 03-28-2013 |
20130104173 | BROADCAST VIDEO PROVISIONING SYSTEM - A device receives, from a network device, information associated with an event, and assigns an event identifier to the event based on the event information. The device also provides the event identifier to a cell control device located at a location associated with the event, and determines a cell capacity of the location to ensure that there is sufficient cell capacity at the location to broadcast the event. The network device instructs a device capturing the event to provide live event data to the cell control device for a predetermined time period. | 04-25-2013 |
20130115943 | LOCATION-BASED MICROCELL SEARCH - A network device may store information identifying a coverage area associated with each of one or more cells that are associated with the network device. The network device may receive information identifying a geographic location of a user device. The network device may compare the geographic location of the user device to one or more of the stored coverage areas. The network device may also determine, based on the comparing, that the user device is within a particular coverage area of a particular cell, of the one or more cells. The network device may further send, to the user device, and based on determining that the user device is located within the particular coverage area of the particular cell, an instruction for the user device to connect to the particular cell, where the user device is to attempt to connect to the particular cell in response to the instruction. | 05-09-2013 |
20130223222 | DYNAMICALLY PROVISIONING SUBSCRIBERS TO MANAGE NETWORK TRAFFIC - A system comprising: one or more server devices to: set a first network threshold level for determining network congestion in a network; set rate limiting criteria for determining when one or more subscribers will be rate limited; detect an increase in network congestion at a base station above the first network threshold level; identify one or more subscribers meeting one or more of the rate limiting criteria; rate limit network traffic associated with the one or more subscribers; detect a decrease in network congestion at the base station below a second network threshold level; and remove the rate limiting of the network traffic associated with the one or more subscribers. | 08-29-2013 |
20130246564 | ADAPTIVE LOCALIZED CONTENT STORAGE AND DISTRIBUTION - A device receives, from a user device and via a first device, a first request for content, and determines whether the content is stored in memory. The device identifies first other requests for the content, received via the first device over a time period, and second other requests for the content, received via a second device over the time period, when the content is stored in the memory. The device identifies a first quantity of the first other requests and a second quantity of the second other requests, and determines whether the first quantity or the second quantity is greater than a threshold. The device transmits the content, to the user device and via the first device, when the first quantity is not greater than the threshold, and transmits, to the second device, an instruction to store the content when the second quantity is greater than the threshold. | 09-19-2013 |
20130258870 | UTILIZING SCANNED RADIO ACCESS TECHNOLOGY INFORMATION - A method may include monitoring available radio access networks for information on one or more of types of radio access technologies, measurements of signal quality, measurements of signal strengths, or carrier identifiers of the available radio access networks; calculating network priorities for the available radio access networks based on the monitored information; detecting a border condition, the border condition based on a decrease in the measurements of signal quality or the measurements of signal strength; selecting, when a border condition is detected, a new radio access network from the available radio access networks based on the calculated network priorities of the available radio access networks; and connecting to a communication channel using the selected available radio access network. | 10-03-2013 |
20130267227 | LOCATION-BASED MICROCELL SEARCH - A network device may be configured to receive information regarding a location of a user device; compare the location of the user device to one or more coverage areas associated with each of one or more cells that are associated with a base station of a wireless telecommunications network; determine that the user device is within a particular coverage area of a particular cell, of the one or more cells; and instruct the user device, based on determining that the user device is within the particular coverage area of the particular cell, to connect to the particular cell. | 10-10-2013 |
20130287198 | AUTOMATIC RECONNECTION OF A DROPPED CALL - A system is configured to receive an indication that a connection with a user device is to be lost, the connection being associated with a call between the user device and another user device; provide an instruction, to one or more devices, to maintain the call when the connection is lost, the one or more devices being responsible for processing the call; detect that the connection is lost; provide, to the one or more devices, a first notification that the connection is lost, the first notification causing the one or more devices to maintain the call based on the instruction to maintain the call when the connection is lost; detect that the connection is re-established; and provide, to the one or more devices, a second notification that the connection is re-established, the second notification causing the one or more devices to re-establish the call. | 10-31-2013 |
20130325952 | SHARING INFORMATION - A server is configured to receive a portion of content from a first user device, where the portion of content is less than an entirety of content that is playing on the first user device; receive information identifying a second user device with which to share the portion of content; store the portion of content; send a request to the second user device to share the portion of content that is playing on the first user device; receive an acceptance of the request from the second user device; determine whether the portion of content is compatible for playing on the second user device; and send, based on the determination that the portion of content is compatible for playing on the second user device, the portion of content, playing on the first user device, to the second user device, to cause the second user device to play the portion of content. | 12-05-2013 |
20130339546 | DEVICE IDENTIFICATION - A mobile device is configured to create a network address for the mobile device, the network address allowing the mobile device to communicate across a mobile network; associate the network address with a name for the mobile device; store the network address and the name for the mobile device in a first component, the first component being a part of the mobile device; update the network address, for the mobile device, to a new network address; associate the new network address with the name for the mobile device; store the new network address in the first component; and send, using the first component, the new network address to a first server. | 12-19-2013 |
20140066005 | MULTICARRIER WIRELESS SERVICE SELECTION - A user equipment (UE) provides a device identifier to a server device, and receives, based on one of the device identifier or a location of the device, carrier pricing information from the server device. The UE provides the carrier pricing information for display, and receives a selection of a particular carrier from the displayed carrier pricing information. The UE provides an indication of the particular carrier to the server device, initializes a connection with the particular carrier, and performs one or more communication operations via the connection with the particular carrier. | 03-06-2014 |
20140066046 | RADIO ACCESS NETWORK INTEGRATED SET-TOP DEVICE - A device may receive a signal strength indicator associated with a connection between a mobile device and a first base station. The signal strength indicator may indicate a strength of a radio signal received by the mobile device from the first base station. The device may transmit the signal strength indicator to a network device, and may receive, from the network device, a first notification to activate a second base station based on the signal strength indicator. The device may activate the second base station based on the first notification. The second base station may provide temporary wireless connectivity for the mobile device. | 03-06-2014 |
20140073334 | INTERFERENCE COORDINATION IN HETEROGENEOUS NETWORKS - A device establishes a connection with a user equipment (UE) via a macrocell associated with the device, and provides, to a femto device within range of the macrocell, information identifying resource blocks to allocate to the UE when the UE enters into a femtocell generated by the femto device. The femto device provides the information to the UE when the UE enters into the femtocell. The device also maintains the connection of the UE with macrocell, via the allocated resource blocks identified in the information, when the UE enters into the femtocell. | 03-13-2014 |
20140080502 | COMPUTING USER DEVICE LOCATIONS IN LOCATION SERVICE DEAD ZONES - A system may be configured to receive first information regarding a location service dead zone; receive second information regarding a location of a user device; identify, based on the first information and the second information, that the user device is within the location service dead zone at a particular time; compute a location of the user device, within the location service dead zone, at the particular time, based on at least one of the second information regarding the location of the user device, history data associated with the user device, or history data associated with one or more other user devices; and store or output information regarding the computed location of the user device at the particular time. | 03-20-2014 |
20140101297 | NETWORK CAPACITY PLANNING - A network device is configured to receive information relating to factors associated with quality of experience issues. The network device is configured to analyze the information. The network device is configured to predict that a quality of experience factor associated with a particular type of communication will exceed a threshold level a future time. The network device is configured to send a message to the device, the device generating a rule or policy; and the rule or policy instructing one or more other network devices to increase a capacity of the network to prevent the quality of experience factor from exceeding the threshold value at the future time. | 04-10-2014 |
20140105035 | DATA RATE DETERMINATION BASED ON RADIO FREQUENCY DEVICE FEEDBACK - A device may receive information that identifies a radio frequency condition of a user device, where the radio frequency condition indicates a quality of a radio access network connection of the user device. The device may determine a radio frequency parameter value based on the radio frequency condition, and may set a data rate for a transmission control protocol (“TCP”) communication with the user device based on the radio frequency parameter value. | 04-17-2014 |
20140162680 | Providing Multiple Interfaces for Traffic - A system may be configured to receive data. The system may be associated with a plurality of network interfaces that each correspond to a different radio access technology associated with one or more cellular networks. The system may identify one or more measures of load associated with each of the plurality of network interfaces; and output, based on the identified measures of load, a different portion of the received data to each network interface, of the group of network interfaces. | 06-12-2014 |
20140177523 | Gateway Selection Based on Geographical Location - A system may be configured to receive information regarding a geographical location of a user device; and compare the geographical location of the user device to geographical locations of a set of gateway devices. The gateway devices may be associated with a cellular network, and the gateway devices may communicatively couple one or more network devices associated with the cellular network to an access point that is not associated with the cellular network. The system may further select a particular gateway device based on the geographical location of the user device and the geographical locations of the particular gateway device; and store or output information regarding the selected particular gateway device. | 06-26-2014 |
20140185521 | INSTALLATION OF A VOICE CLIENT FOR ROAMING DEVICES IN A WIRELESS NETWORK - Voice over LTE (VoLTE) services may be provided to a roaming mobile device, even when the home network of the mobile device does not provide VoLTE service. In one implementation, one or more devices in a network may determine based on a mobile device attaching to a network as a roaming device for the network, a home network of the mobile device. The devices may further determine whether the home network, associated with the mobile device, provides VoLTE services; transmit, based on the determination that the home network does not provide VoLTE services, a VoLTE client application to the mobile device, the VoLTE client application providing functionality, for the mobile device, relating to usage of VoLTE services in the network. The devices may further communicate with the mobile device and the VoLTE client application, to provide one or more VoLTE services to the mobile device. | 07-03-2014 |
20140187210 | FILTERING AND ENHANCEMENT OF VOICE CALLS IN A TELECOMMUNICATIONS NETWORK - Voice calls may be filtered and/or modified to enhance the clarity of a speaker's voice. In one implementation, a device may receive an indication, from a caller associated with a call, that speech of the caller is to be modified to deemphasize an accent of the caller. The device may modify, based on the received indication, the speech of the caller to deemphasize the accent of the caller and transmit the modified speech to a callee associated with the call. | 07-03-2014 |
20140187236 | QUICK RECOVERY OF RF SESSIONS AFTER BACKHAUL LINK FAILURE - Communication sessions with mobile devices may be suspended, in a wireless communications network, after failure of one or more backhaul network links In one implementation, a device may detect failure of a backhaul network connecting a cell site to a core portion of a wireless network; and suspend, based on the detected failure, communication sessions with mobile devices connected to the cell site through radio interfaces, the suspending of the communication sessions including preventing loss of the communication sessions despite the failure of the backhaul network. The device may further detect cessation of the failure of the backhaul network; and resume, based on the detected cessation of the failure of the backhaul network, the communication sessions with the mobile devices. | 07-03-2014 |
20150036494 | GROUPED MULTICAST/BROADCAST SINGLE FREQUENCY NETWORK (MBSFN) SPLITTING - A reporting server receives reports on content items being accessed by a plurality of UE devices through a first multicast/broadcast single frequency network (MBSFN). The reporting server determines, for each content item being accessed, which of the UE devices is accessing the content item. The UE devices are then grouped by the accessed content items such that at least one content item is accessed by a first group of UE devices and not accessed by a second group of UE devices. The reporting server then sends data representing the first and second groups to a broadcast video provisioning system (BVPS) with a recommendation to split the MBSFN into second and third MBSFNs. In another implementation, the reporting server receives reports from fourth and fifth MBSFNs and recommends joining the fourth and fifth MBSFNs to form a sixth MBSFN if broadcast bandwidth requirements are met. | 02-05-2015 |
20150039748 | NETWORK STATE SERVER FOR APPLICATION PROVIDERS - State information relating to an operational state of a network may be provided to services, such as services provided by application servers, and used to enhance the providing of the services to devices. In one implementation, the state information may be received and may include: (1) information relating to the operational state of a particular portion of a network; or (2) information relating to the operational state of the network as relevant to a particular mobile device connected to the network. A request for the state information may be received from an application server that provides services based on the state information. The request may include an identification of the particular portion of the network or an identification of the particular mobile device. The requested state information may be provided to the application server. | 02-05-2015 |
20150040162 | DYNAMIC SPLITTING OF EVOLVED MULTICAST BROADCAST MULTIMEDIA SERVICE (EMBMS) - A reporting server receives reports on unicast and/or broadcast multimedia content items being accessed by respective user equipment (UE) devices through a network. The reporting server determines, for each multimedia content item, a number of UE devices that are accessing the multimedia content item and whether it is being unicast or broadcast. The reporting server ranks the multimedia content items by the number of UE devices accessing each item. In several disclosed examples, a broadcast video provisioning system switches unicast transmissions to broadcast transmissions based on the ranked list, based on this ranking and possibly on the available unicast and broadcast bandwidth. | 02-05-2015 |
20150056942 | DETECTING AND HANDLING REGIONAL EVENTS BASED ON CALL ANALYSIS - A server device may be configured to receive information regarding calls that have been placed; detect, based on the information regarding the calls that have been placed, an occurrence of an event; determine a set of base stations that are associated with the event; and broadcast, via the set of base stations, a message regarding the event. | 02-26-2015 |
20150063122 | SMART MOBILITY MANAGEMENT ENTITY FOR UE ATTACHED RELAY NODE - A system includes a communication section communicably connected to a network, and configured to receive requests for data flows from user equipment attached to the network. The system may further include a flow path determination section configured to determine, for each data flow requested, an optimal signal path from among a plurality of potential signal paths based on substantially current characteristics of the potential signal paths and on characteristics of the data flow requested. The system may further include a command plane section configured to control routing of each requested data flow in accordance with the optimal signal path determined by the flow path determination section for the respective data. | 03-05-2015 |