WiFi boost with LTE IP anchor

We claim: 1. A radio access network element comprising: a base station configured to, send an access point addition message to a wireless local area network (WLAN) access point, the access point addition message including a WLAN address for a user equipment, and requesting that the WLAN access point add the WLAN address to a list of user equipments allowed to access a WLAN subsystem identified by a service set identifier (SSID) at the WLAN access point; instruct the user equipment to connect to the WLAN subsystem identified by the SSID; obtain, from the WLAN access point, a local Internet Protocol (IP) address assigned to the user equipment by the WLAN access point; maintain a mapping between the local IP address and a UE session identifier associated with a cellular IP connection for the user equipment; allocate, based on received radio link measurement information, at least a first portion of downlink packet data convergence protocol (PDCP) packets received at the base station for delivery to the user equipment over a WLAN link between the user equipment and the WLAN subsystem at the WLAN access point and a second portion of the received downlink PDCP packets for delivery to the user equipment over the cellular IP connection, the received radio link measurement information being indicative of at least one of a WLAN link quality and a loading of the WLAN link; and output the first portion of the received downlink PDCP packets to the WLAN access point for delivery to the user equipment over the WLAN link based on the mapping. 2. The radio access network element of claim 1 , wherein the base station is further configured to deliver the second portion of the received downlink PDCP packets to the user equipment over the cellular IP connection. 3. The radio access network element of claim 2 , wherein the base station is further configured to determine a distribution ratio of the first portion of the received downlink PDCP packets to the second portion of the received downlink PDCP packets based on the received radio link measurement information; allocate the first portion of the received downlink PDCP packets for delivery to the user equipment over the WLAN link based on the determined distribution ratio; and allocate the second portion of the received downlink PDCP packets for delivery to the user equipment over the cellular IP connection based on the determined distribution ratio. 4. The radio access network element of claim 1 , wherein: the WLAN access point is coupled to the base station by an Internet Protocol (IP) tunnel; and the base station is configured to output the first portion of the received downlink PDCP packets to the WLAN access point through the IP tunnel. 5. The radio access network element of claim 4 , wherein the IP tunnel is part of an IPSec tunnel between the base station and the user equipment. 6. The radio access network element of claim 4 , wherein the WLAN access point and the base station are co-located at the radio access network element. 7. The radio access network element of claim 1 , wherein the base station is further configured to determine whether the WLAN link for delivering the first portion of the received downlink PDCP packets to the user equipment should be deleted based on updated radio link measurement information received from the user equipment; and instruct the user equipment to disassociate from the WLAN access point if the base station determines that the WLAN link should be deleted. 8. The radio access network element of claim 1 , wherein the base station is further configured to instruct the WLAN access point to delete the WLAN link if the base station determines that the WLAN link should be deleted. 9. A radio access network element comprising: a base station configured to, send an access point addition message to a wireless local area network (WLAN) access point associated with a WLAN gateway, the access point addition message including a WLAN address for a user equipment, and requesting that the WLAN access point add the WLAN address to a list of user equipments allowed to access a WLAN subsystem identified by a service set identifier (SSID) at the WLAN access point; instruct the user equipment to connect to the WLAN subsystem identified by the SSID; obtain, from the WLAN access point, an Internet Protocol (IP) address assigned to the user equipment by the WLAN access point; establish a General Packet Radio Service (GPRS) tunneling protocol (GTP) tunnel between the base station and the WLAN gateway; maintain a mapping between a UE session identifier associated with a cellular IP connection for the user equipment, the IP address, and a GTP tunnel identifier for the GTP tunnel; allocate, based on received radio link measurement information, at least a first portion of downlink packet data convergence protocol (PDCP) packets received at the base station for delivery to the user equipment over a WLAN link between the user equipment and the WLAN subsystem of the WLAN access point and a second portion of the received downlink PDCP packets for delivery to the user equipment over the cellular IP connection, the received radio link measurement information being indicative of at least one of a WLAN link quality and a loading on the WLAN link; and output the first portion of the downlink PDCP packets to the WLAN gateway over the GTP tunnel between the base station and the WLAN gateway for delivery to the user equipment via the WLAN access point over the WLAN link based on the mapping. 10. The radio access network element of claim 9 , wherein the base station is further configured to deliver the second portion of the received downlink PDCP packets to the user equipment over the cellular IP connection. 11. The radio access network element of claim 10 , wherein the base station is further configured to determine a distribution ratio of the first portion of the received downlink PDCP packets to the second portion of the received downlink PDCP packets based on the radio link measurement information; allocate the first portion of the received downlink PDCP packets for delivery to the user equipment over the WLAN link based on the determined distribution ratio; and allocate the second portion of the received downlink PDCP packets for delivery to the user equipment over the cellular IP connection based on the determined distribution ratio. 12. The radio access network element of claim 9 , wherein the base station is further configured to determine whether the WLAN link for delivering the first portion of the received downlink PDCP packets to the user equipment should be deleted based on updated radio link measurement information from the user equipment; and instruct the user equipment to disassociate from the WLAN access point if the base station determines that the WLAN link should be deleted. 13. The radio access network element of claim 12 , wherein the base station is further configured to instruct the WLAN gateway to delete the GTP tunnel if the base station determines that the WLAN link should be deleted.