Method for power management and power management controller for a radio receiver

The invention claimed is: 1. A method for power management in a radio receiver, the method comprising: receiving a sequence of radio subframes over a radio channel, each radio subframe of the sequence of radio subframes comprising at least one control region and at least one data region; monitoring control information from at least one control region of at least one radio subframe; generating a channel metric based on the monitored control information, the channel metric indicating a quality of the radio channel; and selecting a power saving mode based on the channel metric, the power saving mode indicating a scheduling to disable-receiving at least part of the at least one data region included in the sequence of radio subframes by switching off one or more portions of the radio receiver. 2. The method of claim 1 , comprising: switching off the one or more portions of the radio receiver to disable receiving at least part of the at least one data region included in the sequence of radio subframes according to the selected power saving mode. 3. The method of claim 1 , comprising: generating the channel metric based on at least one cell specific reference signal received in at least one control region of at least one radio subframe. 4. The method of claim 1 , wherein a first power saving mode indicates a scheduling for switching off the one or more portions of the radio receiver to disable receiving the at least one data region after decoding at least part of the at least one control region. 5. The method of claim 4 , wherein a second power saving mode indicates a scheduling for switching off the one or more portions of the radio receiver to disable receiving the at least one data region if the control information indicates an absence of user data in the at least one data region. 6. The method of claim 5 , wherein a normal power mode indicates a scheduling for a normal operation in which the one or more portions of the radio receiver is switched on to receive the at least one data region. 7. The method of claim 6 , comprising: assigning respective priorities to the power saving modes, wherein a priority assigned to the second power saving mode is higher than a priority assigned to the first power saving mode and the priority assigned to the first power saving mode is higher than a priority of the normal power mode. 8. The method of claim 6 , comprising: generating the channel metric based on a signal to interference plus noise ratio. 9. The method of claim 8 , comprising: selecting the first power saving mode if the following conditions are met: the radio receiver is in a continuous reception mode, the radio receiver enters an RRC_CONNECTED mode, and the signal to interference plus noise ratio is above a first threshold for a first threshold number of successive radio subframes of the sequence of radio subframes. 10. The method of claim 9 , comprising: maintaining the first power saving mode if the radio receiver enters a connected discontinuous reception (C-DRX) state in the RRC_CONNECTED mode and if the signal to interference plus noise ratio is above the first threshold. 11. The method of claim 9 , comprising: scheduling a transition from the first power saving mode to the normal power mode if the signal to interference plus noise ratio is below a second threshold for the first threshold number of successive radio subframes of the sequence of radio subframes or if the radio receiver leaves the RRC_CONNECTED mode. 12. The method of claim 8 , comprising: selecting the second power saving mode if the following conditions are met: the radio receiver is in a continuous reception mode, the radio receiver enters an RRC_CONNECTED mode, and the signal to interference plus noise ratio is above a third threshold for a second threshold number of successive radio subframes of the sequence of radio subframes. 13. The method of claim 12 , comprising: selecting the second power saving mode if the following further condition is met: after a third threshold number of successive radio subframes, no downlink assignments are addressed to the radio receiver. 14. The method of claim 13 , comprising: selecting the second power saving mode if the following further condition is met: after the third threshold number of successive radio subframes no downlink hybrid automatic repeat request (HARQ) process is pending in the radio receiver. 15. The method of claim 12 , comprising: scheduling a transition from the second power saving mode to the normal power mode if the signal to interference plus noise ratio is below a fourth threshold for the second threshold number of successive radio subframes of the sequence of radio subframes, if the radio receiver leaves the RRC_CONNECTED mode, or if a downlink assignment is addressed to the radio receiver. 16. The method of claim 1 , comprising: generating the channel metric based on a block error rate (BLER) of the received sequence of radio subframes. 17. The method of claim 16 , comprising: generating the BLER based on one of exponential effective SNR mapping (EESM) or mutual information effective SNR mapping (MIESM). 18. A power management controller for a radio receiver, the power management controller comprising: a first processor component configured to monitor control information from at least one control region of at least one radio subframe of a sequence of radio subframes received over a radio channel, wherein each radio subframe of the sequence of radio subframes comprises at least one control region and at least one data region; a second processor component configured to generate a channel metric based on the monitored control information, the channel metric indicating a quality of the radio channel; and a third processor component configured to select a power saving mode based on the channel metric, wherein the power saving mode indicates a scheduling to disable receiving at least part of the at least one data region included in the sequence of radio subframes by switching off one or more portions of the radio receiver. 19. The power management controller of claim 18 , wherein the second processor component is configured to generate the channel metric based on a signal to interference plus noise ratio (SINR) of the received sequence of radio subframes. 20. The power management controller of claim 18 , wherein the second processor component is configured to generate the channel metric based on a block error rate (BLER) of the received sequence of radio subframes. 21. The power management controller of claim 18 , wherein: the third processor component is configured to select between a second power saving mode, a first power saving mode and a normal power mode, the second power saving mode indicates a scheduling for switching off the one or more portions of the radio receiver to disable receiving the at least one data region if the control information indicates an absence of user data in the at least one data region, the first power saving mode indicates a scheduling for switching off the one or more portions of the radio receiver to disable receiving the at least one data region after decoding at least part of the at least one data region, and the normal power mode indicates a normal operation of the radio receiver in which the one or more portions of the radio receiver is switched on to receive the at least one data region. 22. A radio receiver, comprising: a receiver circuit configured t