Patent application number | Description | Published |
20140198643 | WIRESPEED TCP SESSION OPTIMIZATION FOR NETWORKS HAVING RADIO SEGMENTS - TCP sessions passing through a network, such as a wireless network, may be optimized based on conditions corresponding to the radio interface of the wireless network. In one implementation, a method may include monitoring, by a base station, performance parameters relating to a radio access network (RAN); determining, based on the performance parameters, one or more protocol data units (PDUs) to retransmit; determining one or more Transmission Control Protocol (TCP) sessions and packet sequence numbers corresponding to the one or more PDUs; and transmitting, to a network device, an indication to retransmit packets corresponding to the one or more TCP sessions and packet sequence numbers. | 07-17-2014 |
20140269630 | USER BASED NETWORK COMPONENT ANALYTICS - A data record server is configured to receive transmission measurement data from one or more network components containing information about one or more packet data communications and create a data record for each of packet data communications. Data records corresponding to a particular network component are identified, associated with one or more time slots in a data measurement compilation, and used to analyze the resource usage of a network component by one or more of the subscribers or mobile devices. | 09-18-2014 |
20140278915 | PROVIDING PROMOTIONAL CONTENT - Systems and methods for providing promotional content are provided. Criteria defining a plurality of different activity-related modes for a user of a mobile station are stored. A message from the mobile station containing that contains information about an activity engaged in by the user is received through a mobile communication network. One of the activity-related modes for a user of a mobile station is selected upon determining that the information about the activity satisfies at least one criterion corresponding to the selected activity-related mode. Promotional content associated with the selected activity-related mode is obtained. The obtained promotional content is transmitted through the mobile communication network to the mobile station for presentation to the user. | 09-18-2014 |
20150119047 | DYNAMIC SMALL CELL PROVISIONING AND FREQUENCY TUNING - A system may include a macro cell base station configured to determine a service quality associated with the macro cell base station; determine whether the service quality is below a quality threshold; and instruct a small cell base station to switch from a sleep mode to an awake mode, when the service quality is below the quality threshold. The system may further include a small cell base station, located within a coverage area of the macro cell base station, configured to enter an awake mode, when instructed to enter the awake mode by the macro cell base station; and inform the macro cell base station that the small cell base station is in awake mode. The macro cell base station may be further configured to hand over one or more user devices to the small cell base station, when the small cell base station is in the awake mode. | 04-30-2015 |
20150127940 | SECURE DISTRIBUTED INFORMATION AND PASSWORD MANAGEMENT - A method, performed by a computer device, may include receiving an indication that a first user has acquired rights to access a digital content; generating a key for the digital content; encrypting the digital content using the generated key to generate encrypted digital content; obtaining a first passcode; and providing the first passcode and the encrypted digital content to a user device associated with the first user. The method may further include receiving, from the user device, a request for the key, wherein the request include the first passcode; determining that the first passcode is valid; determining that the key has not expired; and providing the key to the user device, in response to determining that the first passcode is valid and that the key has not expired. | 05-07-2015 |
20150131434 | TIME WEIGHTED QUEUING SCHEDULER FOR MACHINE-TO-MACHINE COMMUNICATIONS - A device may receive machine-to-machine (M2M) traffic associated with two or more M2M applications. The M2M traffic may include information that identifies two or more priority levels associated with the M2M traffic. The device may determine parameters associated with managing the M2M traffic. The device may determine a traffic rate, an overall holding time, and an outgoing traffic rate associated with the M2M traffic. The device may determine a normalization factor based on the overall holding time and the parameters. The device may determine a set of priority level holding times based on the normalization factor, the overall holding time, and the parameters. Each priority level holding time may be associated with a priority level of the two or more priority levels. The device may manage the M2M traffic based on the set of priority level holding times and the outgoing traffic rate. | 05-14-2015 |
20150138989 | PERFORMANCE PATTERN CORRELATION - A method includes identifying a plurality of network components in a network topology of a data transmission network, identifying data transmission performance patterns based on at least one key performance indicator (KPI) for each of the plurality of network components, identifying at least one data transmission issue in the network, and identifying a model degraded performance pattern associated with the at least one data transmission issue. The method may also include matching the model degraded performance pattern to the data transmission performance patterns to form matched performance patterns, and identifying a root-cause component from the network components based on the matched performance pattern. | 05-21-2015 |
20150149613 | OPTIMIZED FRAMEWORK FOR NETWORK ANALYTICS - A system may receive raw information associated with a network and may prepare the raw information to create optimized information. The optimized information may include the raw information that has been sorted. The system may correlate the optimized information to create a set of correlated information. The system may aggregate at least two sets of correlated information to create aggregated information. The system may determine that network analytics are to be performed using the set of correlated information or the aggregated information. The system may determine information associated with performing the network analytics, including the set of correlated information or the aggregated information. The system may perform the network analytics based on the information associated with performing the network analytics. The system may provide a result associated with performing the network analytics. The result may indicate a manner in which to improve a performance of the network. | 05-28-2015 |