Extension carrier discovery for carrier aggregation

We claim: 1. A method of discovering small cells using a secondary carrier, comprising: receiving at a user equipment first control signaling from a base station over a primary carrier link, wherein the first control signaling identifies the radio resource allocation for a plurality of beacon signals from the small cells carried over the secondary carrier; receiving at the user equipment the beacon signals in the identified radio resources, wherein the user equipment receives the plurality of beacon signals with reference to a timing information in the primary carrier, the plurality of beacon signals comprising a first beacon signal, identified by the timing information, from a network node in a first small cell; transmitting from the user equipment to the base station an identification of the first small cell responsive to receipt of the first beacon signal; and receiving at the user equipment second control signaling from the base station over the primary carrier, wherein the second control signaling commands the user equipment to establish a secondary carrier link with the network node in the first small cell. 2. The method of claim 1 , wherein the second control signaling is responsive to measuring a best signal quality for a beacon signal received from the network node in the first small cell. 3. The method of claim 1 , further comprising: at the user equipment, receiving first data over the primary carrier link; and at the user equipment, receiving second data over the secondary carrier link. 4. The method of claim 3 , further comprising: subsequent to the receipt of the second data, receiving additional beacon signals at the user equipment; transmitting from the user equipment to the base station a second identification of a second small cell that transmitted a beacon signal having the current best received quality, wherein the second small cell includes a target remote radio head; receiving third control signaling at the user equipment from the base station, wherein the third control signaling commands the user equipment to release the secondary carrier link with the source remote radio head and to establish a secondary carrier link with the target remote radio head and receiving at the user equipment third data over the secondary carrier link with the target remote radio head. 5. The method of claim 2 , wherein the beacon signal from the first small cell is coded orthogonally with respect to beacon signals from the remaining small cells. 6. The method of claim 5 , wherein the beacon signals are orthogonal division frequency multiplexed (OFDM) signals. 7. The method of claim 5 , wherein the beacon signals occupy resource elements that are not used for common reference signals. 8. The method of claim 5 , wherein the beacon signals include a cyclic prefix of sufficient length to accommodate propagation delays. 9. The method of claim 5 , wherein each beacon signal includes a unique code. 10. The method of claim 9 , wherein each unique code is a Constant Amplitude Zero Autocorrelation (CAZAC) code. 11. A method of discovering small cells using a secondary carrier, comprising: transmitting from a base station to a user equipment first control signaling over a primary carrier link to identify to the user equipment radio resource allocation for a plurality of beacon signals transmitted by the small cells over the secondary carrier; receiving, by the user equipment, the plurality of beacon signals in the identified radio resources, wherein the user equipment receives the plurality of beacon signals with reference to a timing information in the primary carrier link, wherein the plurality of beacon signals comprises a first beacon signal, identified by the timing information, from a network node in a first one of the small cells; receiving from the user equipment a first measurement report identifying the first one of the small cells; transmitting from the base station to the user equipment second control signaling over the primary carrier link to command the user equipment to establish a secondary carrier link with a network node in the first small cell; and transmitting from the base station to the user equipment first data over the primary carrier link and second data over the established secondary carrier link through the network node. 12. The method of claim 11 , wherein the network node is a source remote radio head. 13. The method of claim 11 , wherein the first measurement report identifies the first small cell responsive to a signal quality for a beacon signal transmitted from the first small cell. 14. The method of claim 13 , further comprising: subsequent to the transmission of the second data, receiving from the user equipment a second measurement report identifying a second one of the small cells, wherein the second small cell has a beacon signal having a current best received signal quality at the user equipment; and transmitting from the base station to the user equipment third control signaling to command the user equipment to release the secondary carrier link with the source remote radio head and to establish a secondary carrier link with a target remote radio head associated with the second small cell. 15. A user equipment, comprising: a primary communication section configured to communicate with a base station over a primary carrier link; and a secondary communication section configured to communicate over a secondary carrier link, wherein the primary communication section is further configured to receive first control signaling from the base station to identify a radio resource allocation for a plurality of beacon signals transmitted by at least one small cell, wherein the secondary communication section is further configured to establish the secondary carrier link with a network node associated with a small cell; wherein the secondary communication section further comprises a beacon signal reception unit to measure received qualities for the plurality of beacon signals; and a transmission and reception unit configured to transmit to and receive user data and control signaling from the base station; wherein the beacon signal reception unit is further configured to measure the received qualities for the plurality beacon of signals with reference to a timing information identified by the primary communication section in the primary carrier link, and wherein the plurality of beacon signals comprises a first beacon signal, identified by the timing information, from the network node. 16. The user equipment of claim 15 , wherein the network node is a remote radio head. 17. A base station, comprising: a primary communication section configured to transmit to and to receive from a user equipment first user plane data and control signaling over a primary carrier link; a secondary communication section configured to transmit to and to receive from the user equipment second user plane and control signaling over a secondary carrier link, wherein the secondary communication section is further configured to transmit at least one beacon signal to the user equipment, each beacon signal corresponding to its own small cell within a macro cell controlled by the base station; and a control unit configured to control the establishment of the primary carrier link with a first one of the small cells, wherein the primary communication section is further configured to transmit first control signaling to the user equipment over the primary carrier link to identify a radio resource allocation and a timing information for each of the beacon signals.