Support for asynchronous time division duplexing in adjacent cells of a wireless communication system

What is claimed is: 1. A device for reducing interference between a downlink and an uplink of two evolved Node Bs, comprising: a measurement module, operating at a first evolved Node B (eNodeB), configured to measure a channel state information of a Down Link (DL) transmission from a second eNodeB as received at the first eNodeB; a message module, in communication with the measurement module and operating at the first eNodeB, configured to generate an interference message indicating a need for the second eNodeB to reduce interference according to at least one of a scheduling pattern and a beam pattern with a reduced radiated power in a direction from the second eNodeB to the first eNodeB and carrying information to assist to reduce the interference, wherein the interference is from the second eNodeB to the first eNodeB; a communication module, in communication with the message module and operating at the first eNodeB, configured to communicate the interference message from the first eNodeB to the second eNodeB to enable the second eNodeB to reduce interference received at the first eNodeB; and a coordination module, in communication with the measurement module and operating at the first eNodeB, configured to request a User Equipment (UE) associated with the first eNodeB to reduce a transmission power for an UpLink (UL) transmission during measurement of the DL transmission from the second eNodeB as the DL transmission from the second eNodeB is received at the first eNodeB so that an impact from the UL transmission from the UE is mitigated during measurement. 2. The device of claim 1 , wherein the measurement module measures the channel state information of the DL transmission from the second eNodeB as received at the first eNodeB by measuring at least one reference signal, wherein the at least one reference signal can comprise at least one of a Channel State Information Reference Signal (CSI-RS) and a Cell-specific Reference Signal (CRS). 3. The device of claim 1 , wherein the interference message includes at least one of a channel measurement, a reference signal received power, a quantized principle eigen vector(s) of an estimated channel, and a precoding matrix indicator of a codebook. 4. The device of claim 1 , wherein the communication module is further configured to receive measurement information about a set of reference signals (RS) in the DL transmission from the second eNodeB, wherein the measurement information is used to find the set of RSs and measure the channel state information of the DL transmission from the second eNodeB as received at the first eNodeB. 5. The device of claim 1 , wherein the coordination module requests the UE to reduce the transmission power for the UL transmission during measurement of the DL transmission by requesting the UE to mute the transmission power for the UL transmission for a first set of Resource Elements (RE) with substantially similar transmission times and sub-carriers as those of a second set of resource elements to be measured by the measurement module. 6. The device of claim 1 , wherein the communication module is further configured to send Time Division Duplexing (TDD) configuration information for the first eNodeB to allow the second eNodeB to do at least one of not transmit DL information and reduce transmission power when the first eNodeB is receiving UL information. 7. The device of claim 1 , wherein the measurement module performs a series of measurements of the DL transmission, the message module generates a series of interference messages, and the communication module sends the series of interference messages with sufficient frequency to allow the second eNodeB to adapt to changing traffic loads and Time Division Duplexing (TDD) configurations at the first eNodeB in real time. 8. A device for reducing interference between a downlink and an uplink of two evolved Node Bs, comprising: a backhaul module, operating at a transmit evolved Node B (eNodeB), configured to receive interference information from an illuminated eNodeB, the interference information providing information about a channel state information of a (DL) DownLink transmission from the transmit eNodeB as received at the illuminated eNodeB, wherein the interference information provides information about interference from the transmit eNodeB to the illuminated eNodeB; a determination module, in communication with the backhaul module and operating at the transmit eNodeB, configured to determine an interference reduction action based on the interference information received by the backhaul module; a reduction module, in communication with the determination module and operating at the transmit eNodeB, configured to take the interference reduction action upon a determination by the determination module that the interference reduction action is appropriate; and a beam forming module, in communication with the reduction module and operating at the transmit eNodeB, configured to form a beam for the DL transmission with a reduced radiated power in a direction from the transmit eNodeB to the illuminated eNodeB at times that interfere with reception of UL transmission at the illuminated eNodeB. 9. The device of claim 8 , wherein the interference reduction action comprises scheduling DL transmission sub-frames at the transmit eNodeB to avoid DL interference reception on UpLink (UL) transmissions at the illuminated eNodeB. 10. The device of claim 9 , wherein the backhaul module further receives Time Division Duplexing (TDD) configuration information for the illuminated eNodeB to use in scheduling DL transmission at times that do not interfere with reception of UL transmission at the illuminated eNodeB. 11. The device of claim 8 , wherein the beam forming module uses at least one of Zero-Forcing, Minimum Mean Squared Error (MMSE), Signal-to-Leakage-and-Noise Ratio (SLNR), and Signal to Interference plus Noise Ratio (SINR) to form the reduced radiated power in the direction from the transmit eNodeB to the illuminated eNodeB. 12. The device of claim 8 , wherein the transmit eNodeB and the illuminated eNodeB are any of a high power eNodeB and a low power eNodeB. 13. The device of claim 8 , wherein the backhaul module is configured to respond to a series of interference messages with sufficient frequency to allow the transmit eNodeB to adapt to changing traffic loads and changing Time Division Duplexing (TDD) configurations at the illuminated eNodeB in real time. 14. A device for reducing interference between uplink transmission and downlink reception of two User Equipments in a wireless network, comprising: a comparison module, operating at a DownLink (DL) evolved Node B (eNodeB), configured to: compare a first Time Division Duplexing (TDD) configuration at the DL eNodeB with a second TDD configuration at an UpLink (UL) eNodeB, and identify a potentially interfering sub-frame due to differing UL and DL configurations between the first TDD configuration and the second TDD configuration; and a request module, in communication with the comparison module and operating at the DL eNodeB, configured to: request that a User Equipment (UE) receiving a DL transmission associated with the first TDD configuration perform a sub-frame specific interference measurement on the potentially interfering sub-frame identified by the comparison module, and receive the sub-frame specific interference measurement from the UE; and a scheduling module, in communication with the request module and operating at the DL eNodeB, configured to avoid scheduling DL transmission to the UE on the potentially interfering sub-frame where the sub-frame specific interferenc