Power efficient data transmission

What is claimed is: 1. A method implemented by a mobile node or a network node in a variable bandwidth wireless communication system for communicating data between the mobile node and the network node efficiently in terms of the power consumed by the mobile node relative to the data rate, wherein the variable bandwidth wireless communication system supports different transmission bandwidths within which allocations for individual mobile nodes are possible, the method comprising: determining the value of a control setting, different values of the control setting corresponding to different pre-defined power efficiency configurations for the mobile node, each power efficiency configuration representing a different tradeoff between power efficiency of the mobile node and data rate; selecting from the different transmission bandwidths a transmission bandwidth that, according to a power efficiency model that models power efficiency of the mobile node for the different transmission bandwidths, yields a tradeoff between power efficiency and data rate comporting with the power efficiency configuration corresponding to the determined value, wherein each of the different transmission bandwidths is either a carrier bandwidth or an aggregated carrier bandwidth; and transmitting or receiving data between the mobile node and the network node within an allocation from the selected transmission bandwidth. 2. The method of claim 1 , wherein determining the value of a control setting comprises determining the value of input received from a user of the mobile node. 3. The method of claim 1 , wherein said value corresponds to a maximum power efficiency configuration whereby the mobile node operates at the maximum power efficiency possible without the data rate falling below a minimum data rate required by a quality of service associated with the data transmission, and wherein selecting said transmission bandwidth comprises selecting, from the different transmission bandwidths that support at least said minimum data rate, the transmission bandwidth that yields the maximum power efficiency. 4. The method of claim 1 , wherein said value corresponds to a greedy power efficiency configuration whereby the mobile node operates at the maximum power efficiency possible without the data rate falling below a current data rate, wherein the current data rate is greater than a minimum data rate required by a quality of service associated with the data transmission, and wherein selecting said transmission bandwidth comprises selecting, from the different transmission bandwidths that support said current data rate, the transmission bandwidth that yields the maximum power efficiency. 5. The method of claim 1 , wherein said power efficiency model restricts the different transmission bandwidths that may be selected for the data transmission to conserve the capacity of the wireless communication system. 6. The method of claim 1 , wherein selecting a transmission bandwidth from different transmission bandwidths comprises selecting from different possible combinations of two or more transmit parameters, including the transmission bandwidth, the combination of transmit parameters that yields a power efficiency and data rate comporting with said power efficiency configuration. 7. The method of claim 6 , wherein the two or more transmit parameters comprising said different possible combinations further includes a modulation and coding scheme associated with a signal-to-noise ratio required for receiving a data transmission transmitted with that scheme. 8. The method of claim 6 , wherein the two or more transmit parameters comprising said different possible combinations further includes a technique for transmitting and/or receiving the data transmission using multiple antennas. 9. The method of claim 1 , wherein selecting a transmission bandwidth from different transmission bandwidths comprises selecting a carrier for the data transmission from different possible carriers, at least two of the different possible carriers having different bandwidths. 10. The method of claim 1 , wherein the variable bandwidth wireless communication system comprises an LTE-Advanced wireless communication system, and wherein selecting a transmission bandwidth from different transmission bandwidths comprises selecting a number of LTE component carriers for the data transmission. 11. The method of claim 1 , wherein the method is implemented by the mobile node, and wherein the method further comprises sending a request to the network node for an allocation of resources for the data transmission based on the selected transmission bandwidth. 12. The method of claim 11 , wherein sending a request to the network node for an allocation of resources based on the selected transmission bandwidth comprises sending to the network node a request for an increase or decrease in the transmission bandwidth based on whether the transmission bandwidth of a current data transmission is less than or greater than the selected transmission bandwidth. 13. The method of claim 1 , wherein the method is implemented by the network node, and wherein the method further comprising storing a plurality of power efficiency models in memory, each specific to one of a plurality of mobile nodes or to one of a plurality of groups of mobile nodes, and selecting from said plurality of power efficiency models the power efficiency model specific to said mobile node or to the group of mobile nodes including said mobile node. 14. The method of claim 1 , wherein determining the value of a control setting comprises determining which of the different pre-defined power efficiency configurations a user of the mobile node selected responsive to the different pre-defined power efficiency configurations being displayed to the user for selection. 15. The method of claim 1 , wherein a carrier bandwidth is a bandwidth of an OFDM carrier that comprises multiple subcarriers, an aggregated carrier bandwidth is the bandwidth of the aggregation of multiple OFDM carriers, and an allocation within the selected transmission bandwidth is an allocation within the OFDM carrier or the aggregation of multiple OFDM carriers. 16. The method of claim 1 , wherein the value corresponds to a power efficiency configuration whereby the mobile node operates at the maximum power efficiency possible without the data rate falling below a minimum data rate or a current data rate, wherein the current data rate is greater than a minimum data rate which is required by a quality of service associated with the data transmission. 17. One or more processing circuits for use in a mobile node or a network node of a variable bandwidth wireless communication system and for communicating data between the mobile node and the network node efficiently in terms of the power consumed by the mobile node relative to the data rate, wherein the variable bandwidth wireless communication system supports different transmission bandwidths within which allocations for individual mobile nodes are possible, the one or more processing circuits configured to: determine the value of a control setting, different values of the control setting corresponding to different pre-defined power efficiency configurations for the mobile node, each power efficiency configuration representing a different tradeoff between power efficiency of the mobile node and data rate; and select from the different transmission bandwidths a transmission bandwidth that, according to a power efficiency model that models power efficiency of the mobile node for the different transmission bandwidths, yields