Communication in the presence of uplink-downlink configuration change

What is claimed is: 1. A method of a user equipment (UE), comprising: receiving downlink data wirelessly from a network node in a first frame according to a first uplink-downlink configuration assigned for communications between the UE and the network node in a cell; determining a reference uplink-downlink configuration in response to a configuration change that causes a change of an uplink-downlink configuration assigned for communications between the UE and the network node in the cell from the first uplink-downlink configuration to a second, different uplink-downlink configuration, wherein the configuration change causes a second frame following the first frame to be according to the second uplink-downlink configuration, and wherein determining the reference uplink-downlink configuration includes: identifying a set of downlink subframed that is a union of a set of downlink subframes in the first frame and a set of downlink subframes in the second frame, and selecting the reference uplink-downlink configuration that includes the identified set of downlink subframes; and sending, in the second frame, an acknowledgement indication for the downlink data according to a timing of the reference uplink-downlink configuration. 2. The method of claim 1 , wherein the reference uplink-downlink configuration is selected from among a plurality of uplink-downlink configurations. 3. The method of claim 2 , wherein the plurality of uplink-downlink configurations include an uplink-downlink configuration different from the first and second uplink-downlink configurations. 4. The method of claim 1 , wherein the determined reference uplink-downlink configuration is uplink-downlink configuration 5 according to a Long-Term Evolution (LTE) protocol. 5. The method of claim 1 , wherein the determined reference uplink-downlink configuration is uplink-downlink configuration 0 according to a Long-Term Evolution (LTE) protocol. 6. The method of claim 1 , wherein the second frame immediately follows the first frame in communications between the UE and the network node in the cell. 7. A method of a user equipment (UE), comprising: receiving downlink data wirelessly from a network node in a first frame according to a first uplink-downlink configuration; in response to a configuration change that causes a second frame following the first frame to be according to a second, different uplink-downlink configuration, determining a reference uplink-downlink configuration in response to the configuration change; sending, in the second frame, an acknowledgement indication for the downlink data according to a timing of the reference uplink-downlink configuration: performing communication using ACK/NACK multiplexing; and in response to determining that the configuration change is to the second uplink-downlink configuration that does not support ACK/NACK multiplexing, switching from using ACK/NACK multiplexing to using ACK/NACK bundling. 8. The method of claim 7 , further comprising: determining that a number of hybrid automatic repeat request (HARQ) processes supported by the second uplink-downlink configuration is less than a number of HARQ processes supported by the first uplink-downlink configuration; and in response to the determining, taking action to handle an excess number of HARQ processes after the configuration change. 9. The method of claim 7 , further comprising: modifying a buffer size parameter after the configuration change; and sending a new data transmission or a data retransmission using the modified buffer size parameter. 10. The method of claim 7 , wherein using the ACK/NACK multiplexing comprises separately transmitting ACK/NACK bits in a given subframe of the first frame, wherein the ACK/NACK bits are mapped to the given subframe, and the ACK/NACK bits are responsive to respective downlink data in multiple subframes of a frame preceding the first frame, and wherein using the ACK/NACK bundling comprises performing a logical AND operation of ACK/NACK bits that are responsive to respective downlink data in multiple subframes of the first frame, and sending an ACK/NACK produced by the logical AND operation in a subframe of the second frame. 11. A network node comprising: a communication interface to communicate with a user equipment (UE), and at least one processor configured to: detect a configuration change from a first uplink-downlink configuration of a first frame to a second uplink-downlink configuration of a second frame that follows the first frame; in response to the configuration change, determine, based on at least one rule, a timing relationship between an uplink grant and a scheduled subframe of a frame for communicating uplink data, the frame for communicating the uplink data being the first frame or the second frame, the at least one rule specifying that the timing relationship of the uplink grant is determined by an uplink-downlink configuration of a frame carrying the uplink grant, unless the configuration change involves one of an enumerated set of configuration combinations, the frame carrying the uplink grant being the first frame or the second frame, therein each configuration combination of the configuration combinations includes a respective pair of different uplink-downlink configurations used in successive frames, wherein the at least one rule further specifies that responsive to the configuration change involving one of the enumerated set of configuration combinations, the timing relationship of the uplink grant is according to one of plural timing relationships of the uplink grant specified for respective configuration combinations of the set of configuration combinations. 12. The network node of claim 11 , wherein the at least one processor is to prevent a configuration change to an uplink-downlink configuration that does not support ACK/NACK multiplexing in response to determining that ACK/NACK multiplexing is configured. 13. The network node of claim 11 , wherein the at least one processor is configured to: receive uplink data in a third frame according to a third uplink-downlink configuration; and in response to a second configuration change that causes a fourth frame following the third frame to be according to a fourth uplink-downlink configuration different from the third uplink-downlink configuration, determine, based on at least one rule relating to a combination of the third and fourth uplink-downlink configurations, a timing of an acknowledgement indication in the fourth frame for acknowledging the uplink data. 14. The network node of claim 13 , wherein determining the timing of the acknowledgement indication comprises selecting, based on the at least one rule, a downlink subframe to send the acknowledgement indication in the fourth frame. 15. The network node of claim 13 , wherein the at least one processor is configured to further: in response to determining that the second configuration change is from a specified set of configuration changes, cause the timing of the acknowledgement indication in the fourth frame to follow the fourth uplink-downlink configuration. 16. The network node of claim 13 , wherein the at least one processor is configured to further: in response to determining that the second configuration change is from a specified set of configuration changes, cause the acknowledgement indication to be communicated in a specified subframe in the fourth frame. 17. The network node of claim 13 , wherein the at least one processor is configured to further: in response to determining that the second configuration change is