First and Second Base Stations and Methods Performed Therein

1 . A method, performed by a first base station, for handling scheduling of Time Division Duplex, TDD, uplink and/or downlink subframes for a wireless terminal, which wireless terminal is in dual connectivity with a first cell served by said first base station and a second cell served by a second base station, the method further comprising: identifying a subframe in which an uplink/downlink scheduling conflict will occur between the first cell and the second cell due to a difference between a TDD configuration of the first cell and a TDD configuration of the second cell; determining a scheduling for the identified subframe based on at least one scheduling parameter; and sending, to the second base station, a scheduling instruction comprising the determined scheduling for the identified subframe. 2 . The method according to claim 1 , wherein the identifying further comprises analyzing the TDD configuration of each cell, including said first and second cells, serving the wireless terminal, wherein a frequency of the analyzing is dependent on a reconfiguration rate of each respective cell serving the wireless terminal. 3 . The method according to claim 1 , further comprising maintaining a list of cells serving the wireless terminal and/or of base stations corresponding to the cells. 4 . The method according to claim 1 , wherein the at least one scheduling parameter comprises a buffer state of the first base station for serving the first cell and/or a buffer state of the second base station for serving the second cell, and the determining further comprises scheduling the identified subframe according to the TDD configuration of the one of the first and second cells, for which the respective buffer state indicates a larger buffer level or amount of data to be processed or sent as compared to the respective buffer state for serving the other one of the first and second cells. 5 . The method according to claim 1 , wherein the at least one scheduling parameter comprises an uplink resource request of the first base station serving the first cell and/or an uplink resource request of the second base station serving the second cell, and the determining further comprises: scheduling the identified subframe according to the TDD configuration of the one of the first and second cells, for which the respective uplink resource request is a larger one of the uplink resource requests or if such request surpasses a threshold. 6 . The method according to claim 1 , wherein the at least one scheduling parameter comprises an upcoming uplink allocation made according to any one of the TDD configurations of the first and second cells in the identified subframe, and the determining further comprises: scheduling the identified subframe to receive only uplink communications. 7 . The method according to claim 1 , wherein the at least one scheduling parameter comprises an identity of a preferred base station, and the determining further comprises: determining, from the first and second base stations, the identity of the preferred base station; and scheduling the identified subframe according to the TDD configuration of a respective one of the first and second cells served by the preferred base station. 8 . The method according to claim 7 , wherein the identity of the preferred base station is statically determined. 9 . The method according to claim 7 , wherein the identity of the preferred base station is dynamically determined, and said determining of the identity of the preferred base station is based on any one or more of: a location of the wireless terminal, base station traffic loads, and/or a type of transmitted data. 10 . The method according to claim 1 , wherein the at least one scheduling parameter comprises a predetermined preference scheduling, wherein one of the first base station and the second base station is a preferred base station based on the predetermined preference scheduling, and the determining further comprises: determining the preferred base station according to the predetermined preference scheduling; and scheduling the identified subframe according to the TDD configuration of a respective one of the first and second cells served by the preferred base station. 11 . The method according to claim 10 , wherein the predetermined preference scheduling is based on a round robin or proportional fair scheduling mechanism. 12 . A first base station, for handling scheduling of Time Division Duplex, TDD, uplink and/or downlink subframes for a wireless terminal, which wireless terminal is in dual connectivity with a first cell served by said first base station and a second cell served by a second base station, the first base station being configured to: identify a subframe in which an uplink/downlink scheduling conflict will occur between the first cell and the second cell due to a difference between a TDD configuration of the first cell and a TDD configuration of the second cell; determine a scheduling for the identified subframe based on at least one scheduling parameter; and to send, to the second base station, a scheduling instruction comprising the determined scheduling for the identified subframe. 13 . The first base station according to claim 12 , wherein the first base station is configured to identify the subframe by further being configured to analyze the TDD configuration of each cell, including said first and second cells, serving the wireless terminal, and wherein the first base station is further configured to analyze the TDD configuration in a frequency that is dependent on a reconfiguration rate of each respective cell serving the wireless terminal. 14 . The first base station according to claim 12 , further being configured to maintain a list of cells serving the wireless terminal and/or of base stations corresponding to the cells. 15 . The first base station according to claim 12 , wherein the at least one scheduling parameter comprises a buffer state of the first base station for serving the first cell and/or a buffer state of the second base station for serving the second cell, and the first base station is configured to determine the scheduling by further being configured to schedule the identified subframe according to the TDD configuration of the one of the first and second cells, for which the respective buffer state indicates a larger buffer level or amount of data to be processed or sent as compared to the respective buffer state for serving the other one of the first and second cells. 16 . The first base station according to claim 12 , wherein the at least one scheduling parameter comprises an uplink resource request of the first base station serving the first cell and/or an uplink resource request of the second base station serving the second cell, and the first base station is configured to determine the scheduling by further being configured to schedule the identified subframe according to the TDD configuration of the one of the first and second cells, for which the respective uplink resource request is a larger one of the uplink resource requests or if such request surpasses a threshold. 17 . The first base station according to claim 12 , wherein the at least one scheduling parameter comprises an upcoming uplink allocation made according to any one of the TDD configurations of the first and second cells in the identified subframe, and the first base station is configured to determine the scheduling by further being configured to schedule the identified subframe to receive only uplink communications. 18 . The first base