Patent application number | Description | Published |
20130031197 | INTERNET CACHE SUBSCRIPTION FOR WIRELESS MOBILE USERS - A server device may receive an indication that a mobile device has enrolled in a cache subscription service. The server device may receive cache parameters associated with the cache subscription service, where the cache parameters are specific to the mobile device. Content may be retrieved from a network and stored, in a memory associated with the one or more server devices, based on the received cache parameters. The server device may receive, from the mobile device, a request for particular content, determine whether the request for particular content corresponds to content that is stored in the memory, and provide, when determining that the requested particular content corresponds to content that is stored in the memory, the corresponding stored content to the mobile device. | 01-31-2013 |
20130061127 | PROVIDING TOOLBARS - A server device receives a request for a document of a website from a user device; retrieves the document from a server that hosts that website; retrieves information associated with the user device; determines a toolbar for the document based on the information associated with the user device and information associated with the document; inserts the toolbar into the document; and transmits the document, with the toolbar, to the user device. | 03-07-2013 |
20130067112 | ON-DEMAND CONTEXTUALLY AWARE STEERING RULES - A server device may store policy information that includes subscription information associated with one or more user devices, and an indication of how to route traffic upon detecting traffic associated with the one or more user devices associated with the stored subscription information. The server device may receive information associated with a particular traffic flow, where at least some of the received information is derived from the particular traffic flow. The server device may compare the received information to the stored policy information. The server device may detect, based on the comparing, that the particular traffic flow is associated with a particular one of the one or more user devices associated with the stored subscription information. The server device may route the particular traffic flow based on the stored policy information. | 03-14-2013 |
20130136245 | PROVIDING SELECTIVE VOICE MAIL SERVICES - A device is configured to receive a request for a first user, of a first telephone device, to leave a voice mail message for a second user of a second telephone device; retrieve a profile associated with the second telephone device and to determine, based on the profile, whether the second telephone device is registered for a selective voice mail service; determine, based on the profile, whether the first user is allowed to leave the voice mail message when the second telephone device is registered for the selective voice mail service; and allow the first user to leave the voice mail message for the second user of the second telephone device when the second telephone device is not registered for the selective voice mail service or when the first user is allowed to leave the voice mail message. | 05-30-2013 |
Patent application number | Description | Published |
20100316048 | DYNAMIC SIP MAX-HOP SETUP FOR IMS - A device forwards in a network, a session setup request from an originating user device toward a destination user device and intercepts a too many hops error message from a network element to the originating user device. The device also automatically sends, in response to the error message, a search request message to determine a correct number of hops from the originating user device to the destination user device and resets a Max-Forwards value for the session setup request based on the determined correct number of hops. The session setup request with the determined correct number of hops may be resent on behalf of the originating device without the too may hops error ever reaching the originating device. | 12-16-2010 |
20110040882 | DYNAMIC HANDLER FOR SIP MAX-SIZE ERROR - A network device forwards a Session Initiation Protocol (SIP) setup request from an originating user device toward a destination user device via multiple network elements and intercepts a message-too-large error message sent from one of the multiple network elements to the originating user device. The network device automatically splits the session setup request into smaller SIP messages, where a size of each of the smaller SIP messages is less than or equal to a particular size of message that the network element will accept. The network device then notifies another one of the multiple elements that the session setup request has been split into the smaller SIP messages and sends, via the multiple network elements, the smaller SIP messages toward the destination user device on behalf of the originating device. | 02-17-2011 |
20110051712 | INTERNET PROTOCOL MULTIMEDIA SYSTEM (IMS) MOBILE SESSION INITIATION PROTOCOL (SIP) AGENT - A first phone obtains an identifier of a second phone from a phone list, and sends a request for the second phone's Session Initiation Protocol (SIP) type to a remote server. The first phone receives the second phone's SIP type from the remote server, and sends a message to one or more nodes in a network, based on the received second phone's SIP type, for a SIP session between the first phone and the second phone. | 03-03-2011 |
20110142045 | IPv6 VLAN TAG PACKET TRANSPORT OPTIMIZATION - A network device receives an Ethernet frame sent from an originating device toward a destination device, determines whether the frame includes an Internet Protocol version 6 (IPv6) payload, and determines whether the frame is one of an ingress frame or an egress frame for a virtual local area network (VLAN). The network device determines a VLAN tag for the frame when the frame is an ingress frame and inserts the VLAN tag in a portion of a source internet protocol (IP) address field or a destination IP address field of the IPv6 payload, when the frame is an ingress frame. The network device extracts a VLAN tag from a portion of the source IP address field or a destination IP address field of the IPv6 payload, when the frame is an egress frame. The frame is then output to one of the VLAN or the destination device. | 06-16-2011 |
20120084449 | DYNAMIC SELECTION OF PACKET DATA NETWORK GATEWAYS - A device receives a PDN connection request from a UE, and exchanges, with a HSS, authentication and authorization information associated with the UE. The device also constructs an APN FQDN based on the authentication and authorization information, and sends a query, that includes the APN FQDN, to a DNS server. The device further receives, from the DNS server, PGW FQDNs that contain the APN FQDN, and compares the PGW FQDNs with a FQDN associated with a SGW. The device determines, based on the comparison, a PGW, associated with a PGW FQDN that is a closest match to the FQDN associated with the SGW, to be a primary PGW for the PDN connection request. The device also determines, based on the comparison, one or more PGWs, residing within a predetermined distance of the SGW, to be one or more backup PGWs for the PDN connection request. | 04-05-2012 |
20120096538 | DYNAMIC MOBILE STREAMING APPLICATION SUPPRESSION - A method performed by a network device may include obtaining an Internet Protocol address and a user device identifier associated with a user device, determining that the obtained user device identifier does not match a previous user device identifier associated with the obtained Internet Protocol address, and monitoring packets destined for the obtained Internet Protocol address to determine whether the packets are associated with a streaming application, based on determining that the obtained user device identifier does not match the previous user device identifier. The method may further include detecting a packet destined for the obtained Internet Protocol address, where the packet is associated with a streaming application and where the packet is received from a particular network device and signaling the particular network device to stop sending packets associated with the streaming application and destined for the obtained Internet Protocol address. | 04-19-2012 |
20120110641 | TRAFFIC STEERING SYSTEM - A method including receiving a session request to establish a network connection with a network; sending a session response to establish the network connection with the network; obtaining, by a traffic steering system, user profile information associated with a user sending the session request; and routing the network connection to a requested user destination via the traffic steering system based on the user profile information, wherein the user profile information includes user-specific preferences. | 05-03-2012 |
20120198020 | CONTENT DISTRIBUTION WITHIN A SERVICE PROVIDER NETWORK - A system, associated with a service provider network, is configured to receive, from a content provider, a request for information associated with a community of interest (COI) that corresponds to a user device, where the information associated with the COI includes information associated with preferred user devices, with preferred content providers, or with preferred content; determine whether the content provider is authorized to receive the information associated with the COI; retrieve the information associated with the COI based on a determination that the policy information includes an indication that the content provider is authorized to receive the information associated with the COI; send, to the content provider, the information associated with the COI, which enables the content provider to generate particular content that is customized to the user device; receive the particular content from the content provider; and send the particular content to the user device. | 08-02-2012 |
20120226787 | OPTIMIZING USE OF INTERNET PROTOCOL ADDRESSES - A network device receives a connection request from a user device. The network device determines whether an Internet Protocol (IP) address is assigned to the user device. The network device identifies the IP address when the IP address is assigned to the user device. Otherwise, the network device assigns the IP address to the user device. The network device also assigns a virtual local area network (VLAN) identifier (ID) associated with the IP address to use to satisfy the connection request. | 09-06-2012 |
20120230198 | PROGRAMMABLE ADAPTIVE NETWORK GRID - A device receives a first message from a first network element of a network grid. The device determines, based on the first message, whether a threshold is reached for the first network element of the network grid. The device further reprograms, when the threshold is reached, a second network element of the network grid to function in same first role as the first network element. Prior to the reprogramming of the second network element, the second network element functions in a second role that is different from the first role. The device also shifts processing from the first network element to the second network element. | 09-13-2012 |
20130035092 | GENERIC INTERFACE FOR WIRELESS CELLULAR NETWORKS - A generic interface may be provided for parameters relating to one or more wireless networks. In one implementation, a method may include monitoring parameters relating to a 3G wireless network and a 4G wireless network. The method may also include receiving a request, from a network element, to create a custom interface for the parameters relating to the 3G wireless network and the 4G wireless network, the request including an indication of a subset of the parameters that are to be included in the custom interface. The method may further include providing the custom interface to the network element in order to provide the subset of the parameters to the network element. | 02-07-2013 |
20130094395 | FULLY QUALIFIED DOMAIN NAME (FQDN) RECORD OPTIMIZATION FOR NETWORK NODE SELECTION - A device provides, to a domain name system (DNS), a request for candidate network nodes to which to connect, and receives, from the DNS and based on the request, a list of fully qualified domain names (FQDNs) for the candidate network nodes. The device truncates the FQDNs in the list of FQDNs to create a list of truncated FQDNs corresponding to the candidate network nodes, and stores the list of truncated FQDNs in a buffer associated with the device. | 04-18-2013 |
20130293384 | PROVIDING MOBILE USER DRIVING ALERTS - A system is configured to receive an alert status, associated with a first user device, based on the first user device connecting with a mobile alert device, where the alert status is associated with an instruction to prevent calls from being sent to the first user device, and where the alert status indicates that a user, associated with the first user device, is operating a vehicle. The system is configured to receive a call instruction from a second user device, where the call instruction includes an instruction to place a call from the second user device to the first user device. The system is further configured to send the alert status to the second user device, based on receiving the alert status and the call instruction. | 11-07-2013 |
20140040345 | DETERMINING PRESENCE STATUS BASED ON USER ANALYTICS DATA - A first server is configured to receive data associated with a first user device. The first user device may send the data to the first server via a network device without user interaction, and the data may relate to activity associated with the first user device. The first server is further configured to determine a status, associated with the first user device, based on the data, store information regarding the status, receive permissions for the information regarding the status of the first user device, apply the permissions for the information regarding the status to form an advertised status, and send the advertised status to the network device. The network device may be capable of sending the advertised status to a client device or a second user device based on the permissions. | 02-06-2014 |
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 |
20140101487 | PERFORMANCE AND FAULT MANAGEMENT SYSTEM - A network device is configured to receive information from a plurality of device. The network device is configured to further analyze the information and determine that a performance or fault issue exists relating to operation of a device. The network device is configured to further send first information to a user device. The user device is to receive an instruction on eliminating the performance or fault issue. The network device is configured to further receive second information to resolve the performance of fault issue relating to the operation of the device; and send a notification to resolve the performance or fault issue relating to the operation of the device. | 04-10-2014 |
20140185452 | Flow Control Methods and Systems for Use with a Wireless Network - An exemplary method includes an interface device 1) detecting a request provided by a user device for a server to transmit data to the user device by way of a base station and a wireless network that connects the user device to the base station, 2) pre-fetching, in response to the request, the data from the server, 3) transmitting the pre-fetched data to the base station for forwarding by the base station to the user device by way of the wireless network, 4) dynamically receiving, as the interface system transmits the pre-fetched data to the base station, queue occupancy information from the base station, and 5) using the queue occupancy information to perform flow control with respect to the transmission of the pre-fetched data by the interface system to the base station. Corresponding methods and systems are also disclosed. | 07-03-2014 |
20140254370 | END-TO-END QUALITY OF SERVICE OPTIMIZATION BASED ON NETWORK PERFORMANCE INDICATORS - A system may be configured to receive information regarding a quality of service (“QoS”) objective for a network. The network may include a group of nodes through which network traffic traverses. Each node, of the group of nodes, may implement one or more queues that indicate an order in which traffic is processed by the node. The system may further identify scheduling information associated with one or more nodes of the network. The queues implemented by the one or more nodes may be based on the identified scheduling information. The system may receive performance information from at least one of the nodes, of the group of nodes; and may generate new scheduling information for at least one node, of the group of nodes, based on the information regarding the QoS objective, the scheduling information associated with the one or more nodes, and the performance information. | 09-11-2014 |
20140293804 | BACKHAUL NETWORK PERFORMANCE MONITORING USING SEGMENTED ANALYTICS - A system may be configured to monitor traffic associated with a network device; determine a time at which a particular portion of traffic was received by the network device; identify one or more attributes associated with the particular portion of the traffic; determine one or more performance indicators associated with the particular portion of the traffic; and determine that an alert threshold has been met. The determining may be based on at least one of: the one or more attributes or the one or more performance indicators. The system may output, based on determining that the alert threshold has been met, information regarding the time at which the particular portion of the traffic was received by the network device, the one or more attributes, and the one or more performance indicators associated with the particular portion of the traffic. | 10-02-2014 |