Inter-node interference cancellation

What is claimed is: 1. At least one non-transitory computer readable medium having instructions stored therein for cancelling inter-node interference at a victim node, the instructions when executed on a machine to cause the machine to: receive downlink signal information at the victim node from an aggressor node; estimate a channel impulse response for a channel between the aggressor node and the victim node using the downlink signal information; estimate an inter-node interference signal for the channel using the downlink signal information and the channel impulse response; receive, at the victim node, an uplink signal from a wireless device, wherein the downlink signal information is received prior to the reception of the uplink signal; and subtract the estimated inter-node interference signal from the uplink signal to form an inter-node interference compensated uplink signal to substantially cancel inter-node interference caused by the aggressor node in the uplink signal received from the wireless device, wherein cancellation of the inter-node interference at the victim node enables the victim node to dynamically control a Time Division Duplexing (TDD) configuration based on downlink and uplink traffic asymmetry without inter-node interference from the aggressor node. 2. The at least one computer readable medium of claim 1 , wherein the wireless device is mobile device selected from the group consisting of a user equipment (UE) and a mobile station (MS), and wherein the mobile device includes an antenna, a touch sensitive display screen, a speaker, a microphone, a graphics processor, an application processor, internal memory, a non-volatile memory port, or combinations thereof. 3. The at least one computer readable medium of claim 1 , wherein the uplink signal y.sub.eNB.sub.1(t) received by the victim node is represented by y.sub.eNB.sub.1(t)=h.sub.eNB.sub.1.sub.-UES.sub.U(t)+h.sub.eNB.sub.1.sub.-eNB.sub.2S.sub.D(t)+n(t), where is an operator defining a linear convolution, S.sub.U(t) is an uplink signal transmitted by the wireless device to the victim node in the victim cell, S.sub.D(t) is the downlink signal transmitted by the aggressor node to a second wireless device, n(t) is additive noise, h.sub.eNB.sub.1.sub.-UE.sub.1 is the channel impulse response between the wireless device and the victim node, and h.sub.eNB.sub.1.sub.-eNB.sub.2 is a channel impulse response between the aggressor node and the victim node, wherein the inter-node interference signal is represented by h.sub.eNB.sub.1.sub.-eNB.sub.2S.sub.D(t), and the inter-node interference compensated uplink signal x.sub.eNB.sub.1(t) is represented by x.sub.eNB.sub.1(t)=y.sub.eNB.sub.1(t)-h.sub.eNB.sub.1.sub.-eNB.sub.2S.sub-.D(t).h.sub.eNB.sub.1.sub.-UE.sub.1S.sub.U(t)+n(t). 4. The at least one computer readable medium of claim 1 , with further instructions to: decode the inter-node interference compensated uplink signal for uplink signal information transmitted by the wireless device. 5. The at least one computer readable medium of claim 1 , wherein the downlink signal information is received via X2 signaling or backhaul link signaling via a wired connection or an optical fiber connection. 6. The at least one computer readable medium of claim 1 , wherein the instruction to estimate the channel impulse response includes further instructions to: receive a reference signal from the aggressor node; and estimate the channel impulse response using the reference signal. 7. The at least one computer readable medium of claim 1 , wherein the downlink signal information is a direct signal waveform, includes control and payload information sufficient to reconstruct a downlink signal waveform, or includes specific information for reconstructing the downlink waveform. 8. The at least one computer readable medium of claim 1 , wherein the victim node and the aggressor node are selected from the group consisting of an evolved Node B (eNodeB), a base station (BS), a macro evolved Node B (macro-eNB), a low power node (LPN), a micro-eNB, a pico-eNB, a femto-eNB, a home eNB (HeNB), a remote radio head (RRH), a remote radio equipment (RRE), a remote radio unit (RRV), and combinations thereof. 9. An inter-node interference cancellation device, comprising one or more processors and memory configured to: receive downlink signal information at a node from a neighboring node; estimate a channel impulse response for a channel between the neighboring node and the node using the downlink signal information; estimate an inter-node interference signal for the channel using the downlink signal information and the channel impulse response; and subtract the estimated inter-node interference signal from an uplink signal to form an inter-node interference compensated uplink signal to substantially cancel inter-node interference caused by the neighboring node in the uplink signal, wherein the uplink signal is received from a wireless device before subtracting the estimated inter-node interference signal from the uplink signal, wherein the downlink signal information is received prior to the reception of the uplink signal, wherein cancellation of the inter-node interference at the node enables the node to dynamically control a Time Division Duplexing (TDD) configuration based on downlink and uplink traffic asymmetry without inter-node interference from the neighboring node. 10. The inter-node interference cancellation device of claim 9 , further comprising: a transmitting module configured to transmit downlink signal information for the node to a neighboring node and transmit a downlink signal to a second wireless device. 11. The inter-node interference cancellation device of claim 9 , wherein the uplink signal y.sub.eNB.sub.1(t) received by the inter-node interference cancellation device is represented by y.sub.eNB.sub.1(t)=h.sub.eNB.sub.1.sub.-UE.sub.1S.sub.U(t)+h.sub.eNB.sub.-1.sub.-eNB.sub.2S.sub.D(t)+n(t), where is an operator defining a linear convolution, S.sub.U(t) is an uplink signal transmitted by the wireless device to the node, S.sub.D(t) is the downlink signal transmitted by the neighboring node to a second wireless device, n(t) is additive noise, h.sub.eNB.sub.1.sub.-UE.sub.1 is the channel impulse response between the wireless device and the node, and h.sub.eNB.sub.1.sub.-eNB.sub.2 is a channel impulse response between the neighboring node and the node, wherein the inter-node interference signal is represented by h.sub.eNB.sub.1.sub.-eNB.sub.2S.sub.D(t), and the inter-node interference compensated uplink signal x.sub.eNB.sub.1(t) is represented by x.sub.eNB.sub.1(t)=y.sub.eNB.sub.1(t)-h.sub.eNB.sub.1.sub.-eNB.sub.2S.sub-.D(t).h.sub.eNB.sub.1.sub.-UE.sub.1S.sub.U(t)+n(t). 12. The inter-node interference cancellation device of claim 9 , further comprising: a decoding module configured to decode the inter-node interference compensated uplink signal for uplink signal information transmitted by the wireless device. 13. The inter-node interference cancellation device of claim 9 , further comprising: a transmitting module configured to transmit a downlink signal with null stearing in the direction of a neighboring node having an asynchronous downlink/uplink (DL/UL) frame configuration with the node. 14. The inter-node interference cancellation device of claim 9 , wherein the one or more processors and memory are further configured to receive the downlink signal information via X2 signaling or backhaul link signaling via a wired connection or an optical fiber connection. 15. The inter-node interference cancellation device of claim 9 , wherein the one or more processors and memory are furt