Interference management in the heterogeneous network

I claim: 1. A method performed by a first cell of conveying transmit power information from the first cell to a second cell, comprising: preparing a data structure at the first cell, wherein the data structure includes a plurality of elements, each element corresponding to a respective downlink subframe in a radio frame associated with the first cell; assigning a numerical value to each element, the numerical value corresponding to a respective minimum transmit power reduction level promised by the first cell during the respective downlink subframe corresponding to the element; and transmitting the data structure from the first cell to the second cell via a predefined backhaul connection interface, wherein the data structure includes: a first numerical value for a respective downlink subframe of the radio frame that is reserved by the first cell for its own use, a second numerical value for a respective downlink subframe of the radio frame that is designated as being used for other cells including the second cell by the first cell, and a third numerical value for a respective downlink subframe of the radio frame that is promised as having at least a non-zero, non-infinity, minimum transmit power reduction level from a nominal transmit power level from the first cell, wherein the second cell is configured to share, with the first cell, a downlink subframe of the radio frame corresponding to the third numerical value by scheduling a user equipment in the downlink subframe of the radio frame in accordance with its minimum transmit power reduction level promised by the first cell. 2. The method of claim 1 , wherein the data structure is a string including a plurality of numerical values, a relative position of a respective numerical value in the string corresponding to a relative position of the respective downlink subframe in the radio frame. 3. A method performed by a first cell of conveying transmit power information from the first cell to a second cell, comprising: preparing a data structure at the first cell, wherein the data structure includes a plurality of elements, each element corresponding to a respective downlink subframe in a radio frame associated with the first cell; assigning a numerical value to each element, the numerical value corresponding to a respective minimum transmit power reduction level promised by the first cell during the respective downlink subframe corresponding to the element; and transmitting the data structure from the first cell to the second cell via a predefined backhaul connection interface, wherein the data structure is a string including a plurality of numerical values, a relative position of a respective numerical value in the string corresponding to a relative position of the respective downlink subframe in the radio frame, wherein the respective numerical value has a value selected from the group consisting of 0, 1, 2, 3, 4, 5, and 6, which represents the first cell's minimum transmit power reduction levels at 0 dB, ∞ dB, 6 dB, 9 dB, 12 dB, 15 dB, and 18 dB, respectively, from a nominal transmit power level, wherein the second cell is configured to share, with the first cell, a downlink subframe of the radio frame corresponding to a value selected from the group consisting of 2, 3, 4, 5, and 6 by scheduling a user equipment in the downlink subframe of the radio frame in accordance with its corresponding minimum transmit power reduction level promised by the first cell. 4. The method of claim 3 , wherein the minimum transmit power reduction level of 0 dB means that the first cell transmits at its nominal transmit power level and the second cell may not schedule any user equipment in a corresponding downlink subframe. 5. The method of claim 3 , wherein the minimum transmit power reduction level of ∞ dB means that the first cell will not schedule any user equipment in a corresponding downlink subframe. 6. The method of claim 3 , wherein the minimum transmit power reduction level of one selected from the group consisting of 6 dB, 9 dB, 12 dB, 15 dB, and 18 dB means that the first cell will schedule any user equipment in a corresponding downlink subframe below a corresponding transmit power level, which is reduced at least an amount defined by the minimum transmit power reduction level from a nominal transmit power level. 7. The method of claim 1 , wherein the first cell is an aggressor cell and the second cell is a victim cell. 8. The method of claim 1 , wherein the first cell is configured to transmit the data structure to the second cell using one message. 9. The method of claim 1 , wherein the first cell is a macro eNB and the second cell is one selected from the group consisting of a remote radio head, a pico eNB, and a femto eNB. 10. The method of claim 1 , wherein the predefined backhaul connection interface is an X2 interface defined by 3GPP. 11. The method of claim 2 , wherein the respective numerical value has a value selected from the group consisting of 0, 1, 2, 3, 4, 5, and 6, which represents the first cell's minimum transmit power reduction levels at 0 dB, ∞ dB, 6 dB, 9 dB, 12 dB, 15 dB, and 18 dB, respectively, from a nominal transmit power level. 12. The method of claim 11 , wherein the minimum transmit power reduction level of 0 dB means that the first cell transmits at its nominal transmit power level and the second cell may not schedule any user equipment in a corresponding downlink subframe. 13. The method of claim 11 , wherein the minimum transmit power reduction level of co dB means that the first cell will not schedule any user equipment in a corresponding downlink subframe. 14. The method of claim 11 , wherein the minimum transmit power reduction level of one selected from the group consisting of 6 dB, 9 dB, 12 dB, 15 dB, and 18 dB means that the first cell will schedule any user equipment in a corresponding downlink subframe below a corresponding transmit power level, which is reduced at least an amount defined by the minimum transmit power reduction level from a nominal transmit power level.