Adaptive energy detection threshold for clear channel assessment

What is claimed is: 1. In a network comprising at least first and second nodes, a method comprising: detecting, at the first node, a second node that transmits a signal on a channel of an unlicensed frequency band, the signal having a received signal strength at the first node that is below an energy detection threshold that indicates the channel is clear for transmission by the first node, wherein detecting the second node comprises detecting an increase in the received signal strength that lasts for a time interval corresponding to a transmission time interval associated with coexistence rules for the channel of the unlicensed frequency band; and modifying, at the first node, the energy detection threshold based on the received signal strength. 2. The method of claim 1 , wherein detecting the second node comprises decoding at least one of a beacon and a pseudo-beacon transmitted by the second node. 3. The method of claim 2 , further comprising: determining the received signal strength for the signal transmitted by the second node based on the at least one of the decoded beacon or the decoded pseudo-beacon. 4. The method of claim 1 , wherein detecting the second node comprises detecting the increase in the received signal strength followed by a decrease in the received signal strength after the time interval corresponding to the transmission time interval. 5. The method of claim 1 , wherein detecting the second node comprises detecting the second node based on at least one of a master information block, a system information block, and a common reference signal transmitted by the second node. 6. In a network comprising at least first and second nodes, a method comprising: detecting, at the first node, a second node that transmits a signal on a channel of an unlicensed frequency band, the signal having a received signal strength at the first node that is below an energy detection threshold that indicates the channel is clear for transmission by the first node; and modifying, at the first node, the energy detection threshold based on the received signal strength, wherein modifying the energy detection threshold comprises determining a minimum received signal strength based on the received signal strength for the signal transmitted by the second node and setting the energy detection threshold to a larger one of the minimum received signal strength and a minimum energy detection threshold. 7. The method of claim 1 , further comprising: detecting a third node based on the modified energy detection threshold. 8. The method of claim 1 , wherein the first node operates according to a different radio access technology (RAT) than the second node. 9. The method of claim 1 , wherein the first node is owned or operated by a different mobile network operator than the second node. 10. A first node comprising: a transceiver configured to detect a second node that transmits a signal on a channel of an unlicensed frequency band, the signal having a received signal strength at the first node that is below an energy detection threshold that indicates the channel is clear for transmission by the first node, wherein the transceiver is configured to detect the second node by detecting an increase in the received signal strength that lasts for a time interval corresponding to a transmission time interval associated with coexistence rules for the channel of the unlicensed frequency band; and a processor configured to modify the energy detection threshold based on the received signal strength. 11. The first node of claim 10 , wherein the processor is configured to decode at least one of a beacon and a pseudo-beacon transmitted by the second node. 12. The first node of claim 11 , wherein the processor is configured to determine the received signal strength for the signal transmitted by the second node based on the at least one decoded beacon or decoded pseudo-beacon. 13. The first node of claim 10 , wherein the transceiver is configured to detect the second node by detecting the increase in the received signal strength followed by a decrease in the received signal strength after the time interval corresponding to the transmission time interval. 14. The first node of claim 10 , wherein the transceiver is configured to detect the second node based on at least one of a master information block, a system information block, and a common reference signal transmitted by the second node. 15. A first node comprising: a transceiver configured to detect a second node that transmits a signal on a channel of an unlicensed frequency band, the signal having a received signal strength at the first node that is below an energy detection threshold that indicates the channel is clear for transmission by the first node; and a processor configured to modify the energy detection threshold based on the received signal strength, wherein the processor is configured to determine a minimum received signal strength based on the received signal strength for the signal transmitted by the second node and set the energy detection threshold to a larger one of the minimum received signal strength and a minimum energy detection threshold. 16. The first node of claim 10 , wherein the processor is configured to detect a third node based on the modified energy detection threshold. 17. The first node of claim 10 , wherein the first node operates according to a different radio access technology (RAT) than the second node. 18. The first node of claim 10 , wherein the first node is owned or operated by a different mobile network operator than the second node. 19. A non-transitory computer readable medium embodying a set of executable instructions, the set of executable instructions to manipulate a processor in a first node to: detect a second node that transmits a signal on a channel of an unlicensed frequency band, the signal having a received signal strength at the first node that is below an energy detection threshold that indicates the channel is clear for transmission by the first node, wherein the first node detects the second node by detecting an increase in the received signal strength that lasts for a time interval corresponding to a transmission time interval associated with coexistence rules for the channel of the unlicensed frequency band; and modify the energy detection threshold based on the received signal strength. 20. A non-transitory computer readable medium embodying a set of executable instructions, the set of executable instructions to manipulate a processor in a first node to: detect a second node that transmits a signal on a channel of an unlicensed frequency band, the signal having a received signal strength at the first node that is below an energy detection threshold that indicates the channel is clear for transmission by the first node; and modify the energy detection threshold based on the received signal strength, wherein the processor is to determine a minimum received signal strength for the received signal strength for the signal transmitted by the second node and to set the energy detection threshold to a larger one of the minimum received signal strength and a minimum energy detection threshold.