Method and network entity for reducing inter-network interference

What is claimed is: 1. A method, on a network entity of a first wireless network, the method comprising: communicating, by the network entity, with a first User Equipment, UE, that is connected to the first wireless network; receiving, by the network entity, from a second wireless network, information regarding the location of a second UE connected to the second wireless network; determining, by the network entity, the distance between the first UE and the second UE based on the received location information and location information for the first UE; based on the determined distance, determining by the network entity, the level of interference that the first UE would cause to the second UE if the first UE transmits at a first power level; determining, by the network entity, an amount by which the first UE needs to reduce its transmit power in order to bring the determined interference to a predetermined level; and signaling, by the network entity, to the first UE, the determined amount for granting the first UE permission to reduce its transmit power by the determined amount. 2. The method of claim 1 , wherein determining the level of interference comprises: determining the path loss of signals transmitted from the first UE to the second UE; and determining the out of band emissions characteristics of the first UE. 3. The method of claim 1 , wherein a transmission sub-band of the first UE is adjacent to a reception sub-band of the second UE. 4. The method of claim 1 , wherein the signaled determined amount is the maximum amount of transmit power that the first UE is permitted to reduce. 5. The method of claim 1 , further comprising: determining a second amount by which the first UE would need to reduce its transmit power in order to bring the determined interference to predetermined level; and signaling the second transmit power reduction amount to the first UE. 6. The method of claim 1 , wherein frequencies used for UEs to communicate on the first network do not overlap with those used by UEs to communicate on the second network. 7. The method of claim 1 , further comprising: determining time-frequency resource blocks that are not being used by the second UE; ordering the first UE to communicate only on the determined time-frequency resource blocks. 8. A method, on a first User Equipment UE, connected to a first wireless network, the method comprising: detecting a beacon signal of a second UE that is connected to a second wireless network; determining the distance between the first UE and the second UE based on the beacon signal; based on the determined distance, determining the level of interference the first UE would cause to the second UE if the first UE transmits at a first power level; determining an amount by which the first UE would need to reduce its transmit power in order to bring the determined interference to a predetermined level; and lowering the transmit power of the first UE by the determined amount to a second transmit power level. 9. The method of claim 8 , further comprising: determining, based on the determined distance, the path loss of signals transmitted from the first UE to the second UE, wherein the level of interference is determined based at least in part on the determined path loss. 10. The method of claim 9 , wherein determining the level of interference further comprises: determining the path loss of signals transmitted from the first UE to the second UE based on the out of band emissions characteristics of the first UE. 11. The method of claim 8 , wherein a transmission sub-band of the first UE transmits is adjacent to a reception sub-band of the second UE. 12. The method of claim 8 , wherein the beacon signal includes information about the location of the second UE. 13. The method of claim 8 , wherein the beacon signal only contains synchronization data. 14. A network entity, configured to operate as part of a first wireless network, the network entity comprising: a network interface configured to: receive, via a backhaul network, signals from a second wireless network; and wherein the signals contain information indicating the location of a second User Equipment UE, of the second wireless network; and a processor communicatively linked to the network interface and configured to: receive the location information via the network interface; determine the distance between a first UE of the first wireless network and the second UE of the second wireless network based on the location information; based on the determined distance, determine the level of interference the first UE causes to the second UE if the first UE transmits at a first power level; determine an amount by which the first UE needs to reduce its transmit power in order to bring the determined interference to an acceptable level; and signal, to the first UE, the determined amount for granting the first UE permission to reduce its transmit power by the determined amount. 15. The network entity of claim 14 , wherein the processor determines the level of interference further based on the out-of-band emissions characteristics of the first UE. 16. The network entity of claim 14 , wherein a transmission sub-band on which the first UE transmits is adjacent to a reception sub-band of the second UE. 17. The network entity of claim 14 , wherein the processor is configured to determine a maximum transmit power reduction amount based on the determined transmit power amount, wherein the determined transmit power amount is less than the determined maximum transmit power reduction amount.