Method and apparatus for receiving signals

The invention claimed is: 1. A method for receiving signals, comprising: receiving signals on at least one receiving branch, which includes at least two reception units, including at least one data reception unit and at least one pilot reception unit, and said signal is a codeword in a transmission codebook; calculating a metric value for each codeword in said transmission codebook according to said received signal and obtaining the maximal metric value; determining the codeword corresponding to said maximal metric value as the demodulation output if said maximal metric value is larger than a threshold value; and determining discontinuous-transmission DTX as the demodulation output if said maximal metric value is smaller than a threshold value; wherein, calculating the metric value for each codeword in said transmission codebook comprises: processing the received signal on all reception units of each said receiving branch and a codeword to obtain a temporary metric value corresponding to said receiving branch and said codeword; and summing the temporary metric values corresponding to all said receiving branches and said codeword to obtain the metric value for said codeword. 2. The method of claim 1 , wherein processing the received signal on all reception units of each said receiving branch and a codeword to obtain a temporary metric value corresponding to said receiving branch and said codeword comprises: multiplying the conjugation of the m th (1≦m≦M) element of said codeword by the received signal on the m th reception unit to obtain the demodulation value corresponding to the m th reception unit; and summing said demodulation values corresponding to all reception units of said receiving branch, with the summation result taken as said temporary metric value corresponding to said receiving branch and said codeword; wherein said codeword includes M elements and said M is number of reception units on said receiving branch. 3. The method of claim 1 , wherein processing the received signal on all reception units of each said receiving branch and a codeword to obtain a temporary metric value corresponding to said receiving branch and said codeword comprises: multiply the conjugation of the m th (1≦m≦M) element of said codeword by the received signal on the m th reception unit to obtain the demodulation value corresponding to the m th reception unit; and summing said demodulation values corresponding to all reception units of said receiving branch, with the square of the summation result taken as said temporary metric value corresponding to said receiving branch and said codeword; wherein said codeword includes M elements and said M is number of reception units on said receiving branch. 4. The method of claim 1 , wherein each said receiving branch corresponds to a mutually orthogonal channel, which can be achieved by orthogonality in frequency domain, time domain, code division domain, spatial domain, or combinations thereof. 5. The method of claim 1 , wherein each reception unit corresponds to one orthogonal frequency division multiplexing (OFDM) symbol or one single carrier frequency division multiple access (SC-FDMA) symbol. 6. An apparatus for receiving signals, comprising: a receiving module used to receive signals on at least one receiving branch, which includes at least two reception units, including at least one data reception unit and at least one pilot reception unit, and said signal is a codeword in a transmission codebook; a calculation module used to calculate a metric value for each codeword in said transmission codebook according to said received signal and obtaining the maximal metric value; and a demodulation module used to determine the codeword corresponding to said maximal metric value as the demodulation output if said maximal metric value is larger than a threshold value, and determine discontinuous-transmission DTX as the demodulation output if said maximal metric value is smaller than a threshold value; wherein, the calculation module comprises: a first processing unit, used to process the received signal on all reception units of each said receiving branch and a codeword to obtain a temporary metric value corresponding to said receiving branch and said codeword; and a second processing unit, used to sum the temporary metric values corresponding to all said receiving branches and said codeword to obtain the metric value for said codeword. 7. The apparatus of claim 6 , wherein said first processing module is also used to: multiply the conjugation of the m th (1≦m≦M) element of said codeword by the received signal on the m th reception unit to obtain the demodulation value corresponding to the m th reception unit, wherein said codeword includes M elements and said M is number of reception units on said receiving branch; and sum said demodulation values corresponding to all reception units of said receiving branch, with the summation result taken as said temporary metric value corresponding to said receiving branch and said codeword. 8. The apparatus of claim 6 , wherein said first processing module is also used to: multiply the conjugation of the m th (1≦m≦M) element of said codeword by the received signal on the m th reception unit to obtain the demodulation value corresponding to the m th reception unit, wherein said codeword includes M elements and said M is number of reception units on said receiving branch; and sum said demodulation values corresponding to all reception units of said receiving branch, with the square of the summation result taken as said temporary metric value corresponding to said receiving branch and said codeword. 9. The apparatus of claim 6 , wherein each said receiving branch corresponds to a mutually orthogonal channel, which can be achieved by orthogonality in frequency domain, time domain, code division domain, spatial domain, or combinations thereof. 10. The apparatus of claim 6 , wherein each reception unit corresponds to one orthogonal frequency division multiplexing (OFDM) symbol or one single carrier frequency division multiple access (SC-FDMA) symbol.