Patent application number | Description | Published |
20100128677 | SERVICE CONTINUITY DURING LOCAL BREAKOUT IN A FEMTOCELL - A system and methodology that facilitates service continuity when a user equipment (UE), employing local breakout mechanisms at a femto access point (FAP) for a communication session, moves out of the femto coverage area is provided. In particular, a network change detection component can be employed to detect when the UE, attached to the FAP, changes its connection from the femto network to the macro network. Further, an active communication session can exist between the UE and a device/service/application on a local Area network (LAN) connected to a FAP, and/or the Internet, which utilizes local breakout at the FAP. When the UE moves out of the femto network, a context management component can be employed to seamlessly resume the communication session, via the macro network. | 05-27-2010 |
20100128708 | FEMTOCELL LOCAL BREAKOUT MECHANISMS - A system and methodology that employs local breakout mechanisms at a femto access point (FAP) to facilitate efficient utilization of backhaul and/or macro networks is provided. In particular, a slave Gateway GPRS Support Node (GGSN) can be integrated within the FAP to directly route the incoming traffic from a user equipment (UE) at the FAP. In one example, Internet bound traffic can be directly routed to the Internet, without employing macro network resources. Further, the system can avoid hairpinning by routing traffic between the UE and a home Local Area Network (LAN) by a anchoring a call or a session in the slave GGSN and facilitate integration of UEs with home applications by employing a UE Digital Home Agent. In addition, the FAP can perform UE-to-UE CS media breakout to facilitate communication between UEs attached to the FAP, without routing the traffic through the core macro network. | 05-27-2010 |
20100128709 | HOME SERVICE INTEGRATION AND MANAGEMENT BY EMPLOYING LOCAL BREAKOUT MECHANISMS IN A FEMTOCELL - A system and methodology that facilitates home services integration by employing a local breakout mechanism at a femto access point (AP) is provided. In particular, the system can perform mapping to provide home functions to an authorized user equipment (UE) attached to the femto AP and provide integration with one or more home services. Further, a monitoring component is employed for home monitoring and facilitates monitoring and/or controlling devices on the home Local Area Network (LAN) via the UE. Furthermore, an access management component is utilized to set, manage and implement access privileges associated with UEs authorized to access the DH LAN. In addition, shared location data is determined and utilized for location based management and/or location assistance services. | 05-27-2010 |
20100130170 | FEMTOCELL LOCAL BREAKOUT MANAGEMENT SERVICES - A system and methodology that provides management services during local breakout at a femto access point (FAP) is provided. In particular, the FAP facilitates policy management and employs a policy component to perform an analysis and enforce a set of policies for dynamically selecting an optimal route for traffic received at the FAP based on a decision-making process. Typically, the set of policies can specify different routes based on various factors, such as, but not limited to, type of traffic, current and/or future network resource availability, current time, day and/or date, location of the FAP, location of a UE sending/receiving the traffic, a lowest cost route, and/or route based on cost-benefit, etc. Further, a monitoring component is employed to observe the route employed by that traffic, which can be utilized by various services, such as, billing, Quality of Service, security management, address management, failure management and/or provisioning. | 05-27-2010 |
20100248643 | INTELLIGENT ADAPTIVE RE-CODING FOR IMPROVED COMMUNICATIONS RESOURCE UTILIZATION - System(s) and method(s) that, periodically or when dynamically triggered, adapt data rates associated with user equipment (UE) in a network are presented. When the UE uses an application or a service, data traffic associated with the UE is inspected to obtain information relating to the application or service, which is used to determine an application/service margin. Current and historical information relating to communication conditions associated with the UE and an associated user is obtained to facilitate determining expected values of Quality-of-Service factors and communication condition metrics associated with the UE and thereby a volatility margin. For each adaptation time interval, the data rate can be adapted by determining a preliminary data rate and adjusting the preliminary data rate using the application/service margin and volatility margin to obtain the adapted data rate to be used for data communications between a node and the UE in the network. | 09-30-2010 |
20100248763 | ADAPTIVE MULTI-TIERED RE-CODING FOR IMPROVED COMMUNICATIONS RESOURCE UTILIZATION - System(s) and method(s) that, periodically or when triggered, adapt data rates in multiple tiers of a network are presented. A top tier feedback (FB) loop adapts on a longer time scale associated with its longer path transit time for FB communication messages from a wireless portion to a data source in the wire-line portion of the network. A bottom tier FB loop adapts very quickly, and on a shorter time scale that the top tier FB loop due to its shorter FB path transit time, at the wireless edge with sufficient speed to accurately adapt to fast-changing wireless conditions. The top tier provides efficient resource utilization down to the bottom tier, and the bottom tier provides efficient resource utilization within the wireless portion of the network. A middle tier(s) can be added as desired to provide a more gradual stepped adaptation from source to destination. | 09-30-2010 |
20110307932 | INTEGRATING VIDEO SHARE AND TEXT MESSAGING WITH SET-TOP BOX AND ACCESS POINT - System(s), method(s), and device(s) providing converged wireline and wireless services in part by employing a set-top box (STB) with machine-to-machine (M2M) communication are presented. The STB, associated with an access point, such as a femtocell, can be used to send/receive messages, including video, to/from user equipment (UE) via a core network. A monitoring system includes a sensor component that is triggered under specified conditions, and the STB records events in response to the trigger, where a recorded event can be sent as a message to the UE. The STB or associated remote control can indicate a received message to a user, who can view the message on the STB, remote control, or associated television. A meter component is associated with the STB via the femtocell or other desired connection. The STB can receive and store utility meter readings for validation or dispute by the user. | 12-15-2011 |
20120026865 | FEMTOCELL SERVICE THROUGH A SECONDARY CONNECTION - System(s), apparatus(es), and method(s) are provided to for providing femtocell service through a secondary connection to a network gateway node that is part of a service provider network. The secondary connection can be established in response to at least one telecommunication performance condition of a primary connection to the network gateway node; the at least one performance condition includes connectivity state of the primary connection or quality of traffic delivery through the primary connection. The secondary connection can be established, in part, via a home gateway node that is alternative to a home gateway node associated with a femtocell access point (AP) that enables, in part, the femtocell wireless service. The main home gateway node or the femtocell AP can initiate establishment of the secondary connection. Home gateway node(s) or femtocell AP(s) that can provide femtocell service through the secondary connection can manage connectivity with the network gateway node. | 02-02-2012 |
20120094648 | Systems, Methods, and Computer Program Products for Managing Access to Femtocell Coverage - Systems, methods, and computer program products are for managing access to a femtocell coverage area. An exemplary method includes storing in a memory component a first identifier corresponding to a subscribed service of a communication device and a second identifier corresponding to a user of the communication device, and granting access to the femtocell coverage area using the second identifier. | 04-19-2012 |
20130045712 | Systems, Methods, and Computer Program Products for Managing Access to Femtocell Coverage - Systems, methods, and computer program products are for managing access to a femtocell coverage area. An exemplary method includes storing in a memory component a first identifier corresponding to a subscribed service of a communication device and a second identifier corresponding to a user of the communication device, and granting access to the femtocell coverage area using the second identifier. | 02-21-2013 |
20140295854 | FEMTOCELL LOCAL BREAKOUT MECHANISMS - Local breakout mechanisms can be performed by a femto access point (FAP) to facilitate efficient utilization of backhaul and/or macro networks. In particular, a slave Gateway GPRS Support Node (GGSN) can be integrated within the FAP to directly route the incoming traffic from a user equipment (UE) at the FAP. In one example, Internet bound traffic can be directly routed to the Internet, without employing macro network resources. Further, the system can avoid hairpinning by routing traffic between the UE and a home Local Area Network (LAN) by a anchoring a call or a session in the slave GGSN and facilitate integration of UEs with home applications by employing a UE Digital Home Agent. In addition, the FAP can perform UE-to-UE CS media breakout to facilitate communication between UEs attached to the FAP, without routing the traffic through the core macro network. | 10-02-2014 |
20140329531 | SERVICE CONTINUITY DURING LOCAL BREAKOUT IN A FEMTOCELL - Service continuity is provided when a user equipment (UE), employing local breakout mechanisms at a femto access point (FAP) for a communication session, moves out of the femto coverage area. In particular, a network change detection component can be employed to detect when the UE, attached to the FAP, changes its connection from the femto network to the macro network. Further, an active communication session can exist between the UE and a device/service/application on a local Area network (LAN) connected to a FAP, and/or the Internet, which utilizes local breakout at the FAP. When the UE moves out of the femto network, a context management component can be employed to seamlessly resume the communication session, via the macro network. | 11-06-2014 |
Patent application number | Description | Published |
20140235261 | FEMTOCELL SERVICE THROUGH A SECONDARY CONNECTION - System(s), apparatus(es), and method(s) are provided to for providing femtocell service through a secondary connection to a network gateway node that is part of a service provider network. The secondary connection can be established in response to at least one telecommunication performance condition of a primary connection to the network gateway node; the at least one performance condition includes connectivity state of the primary connection or quality of traffic delivery through the primary connection. The secondary connection can be established, in part, via a home gateway node that is alternative to a home gateway node associated with a femtocell access point (AP) that enables, in part, the femtocell wireless service. The main home gateway node or the femtocell AP can initiate establishment of the secondary connection. Home gateway node(s) or femtocell AP(s) that can provide femtocell service through the secondary connection can manage connectivity with the network gateway node. | 08-21-2014 |
20140342698 | FEMTOCELL LOCAL BREAKOUT MANAGEMENT SERVICES - Management services are provided during local breakout at a femto access point (FAP). In an aspect, the FAP facilitates policy management and employs a policy component to perform an analysis and enforce a set of policies for dynamically selecting an optimal route for traffic received at the FAP based on a decision-making process. Typically, the set of policies can specify different routes based on various factors, such as, but not limited to, type of traffic, current and/or future network resource availability, current time, day and/or date, location of the FAP, location of a UE sending/receiving the traffic, a lowest cost route, and/or route based on cost-benefit, etc. Further, a monitoring component is employed to observe the route employed by that traffic, which can be utilized by various services, such as, billing, Quality of Service, security management, address management, failure management and/or provisioning. | 11-20-2014 |