Transmission apparatus and transmission method for transmitting a control signal in a wireless communication system

The invention claimed is: 1. A reception apparatus, comprising: a receiver which, in operation, receives a signal that includes a legacy preamble, a non-legacy preamble and a data field, wherein the non-legacy preamble comprises a first non-legacy signal (SIG-A) field and a second non-legacy signal (SIG-B) field, the SIG-B field comprising a first channel field that corresponds to a first frequency subband and a second channel field that corresponds to a second frequency subband different from the first frequency subband, wherein the SIG-A field comprises a SIG-B compression subfield and a number of SIG-B symbols subfield, wherein the number of SIG-B symbols subfield indicates a number of SIG-B symbols in the SIG-B field when the SIG-B compression subfield indicates that a full bandwidth containing the first frequency subband and the second frequency subband is not allocated for multi-user (MU) MIMO transmission, and the number of SIG-B symbols subfield indicates a number of MU MIMO users when the SIG-B compression subfield indicates that the full bandwidth is allocated for MU MIMO transmission; and a processor which, in operation, decodes the received signal. 2. The reception apparatus according to claim 1 , wherein when the SIG-B compression subfield indicates that the full bandwidth is allocated for MU MIMO transmission, a plurality of user-specific subfields are split equitably between the first channel field and the second channel field. 3. The reception apparatus according to claim 1 , wherein each of the first channel field and the second channel field comprises a user-specific field that includes multiple user-specific subfields, each user-specific subfield carrying information for a corresponding terminal station. 4. The reception apparatus according to claim 1 , wherein when the SIG-B compression subfield indicates that the full bandwidth is allocated for the MU MIMO transmission, a common field that carries resource assignment information is not present in each of the first channel field and the second channel field. 5. The reception apparatus according to claim 1 , wherein each of the first channel field and the second channel field includes a common field that carries resource assignment information when the SIG-B compression subfield indicates that the full bandwidth is not allocated for the MU MIMO transmission. 6. The reception apparatus according to claim 1 , wherein when the SIG-B compression subfield indicates that the full bandwidth is not allocated for MU MIMO transmission, each of the first channel field and the second channel field in the SIG-B field includes a common field that carries resource assignment information, and when the SIG-B compression subfield indicates that the full bandwidth is allocated for MU MIMO transmission, the common field that carries resource assignment information is not present in each of the first channel field and the second channel field. 7. A reception method, comprising: receiving a transmission signal that includes a legacy preamble, a non-legacy preamble and a data field, wherein the non-legacy preamble comprises a first non-legacy signal (SIG-A) field and a second non-legacy signal (SIG-B) field, the SIG-B field comprising a first channel field that corresponds to a first frequency subband and a second channel field that corresponds to a second frequency subband different from the first frequency subband, wherein the SIG-A field comprises a SIG-B compression subfield and a number of SIG-B symbols subfield, wherein the number of SIG-B symbols subfield indicates a number of SIG-B symbols in the SIG-B field when the SIG-B compression subfield indicates that a full bandwidth containing the first frequency subband and the second frequency subband is not allocated for multi-user (MU) MIMO transmission, and the number of SIG-B symbols subfield indicates a number of MU MIMO users when the SIG-B compression subfield indicates that the full bandwidth is allocated for MU MIMO; and decoding the received signal. 8. The reception method according to claim 7 , wherein when the SIG-B compression subfield indicates that the full bandwidth is allocated for MU MIMO transmission, a plurality of user-specific subfields are split equitably between the first channel field and the second channel field. 9. The reception method according to claim 7 , wherein each of the first channel field and the second channel field comprises a user-specific field that includes multiple user-specific subfields, each user-specific subfield carrying information for a corresponding terminal station. 10. The reception method according to claim 7 , wherein when the SIG-B compression subfield indicates that the full bandwidth is allocated for the MU MIMO transmission, a common field that carries resource assignment information is not present in each of the first channel field and the second channel field. 11. The reception method according to claim 7 , wherein each of the first channel field and the second channel field includes a common field that carries resource assignment information when the SIG-B compression subfield indicates that the full bandwidth is not allocated for the MU MIMO transmission. 12. The reception method according to claim 7 , wherein when the SIG-B compression subfield indicates that the full bandwidth is not allocated for MU MIMO transmission, each of the first channel field and the second channel field in the SIG-B field includes a common field that carries resource assignment information, and when the SIG-B compression subfield indicates that the full bandwidth is allocated for MU MIMO transmission, the common field that carries resource assignment information is not present in each of the first channel field and the second channel field.