OFDM frame communication method and apparatus

The invention claimed is: 1. A reception method comprising: receiving a first radio signal transmitted from a first antenna at a transmitter and a second radio signal transmitted from a second antenna at the transmitter different from the first antenna, converting the first radio signal to a first orthogonal frequency division multiplexing (OFDM) frame signal and the second radio signal to a second OFDM frame signal, wherein the first OFDM frame signal includes a grid of multiple frequency subcarriers and multiple time periods, each time period with the multiple frequency carriers corresponding to a first OFDM symbol such that the first OFDM frame includes multiple first OFDM symbols, where a first OFDM symbol is carried on multiple frequency subcarriers during a time period, the first OFDM frame including known, first reference OFDM symbols located at corresponding time-frequency resource elements in the grid, each resource element being defined by a one of the multiple frequency subcarriers and one of the multiple time periods, and wherein the second OFDM frame signal includes the grid of multiple frequency subcarriers and multiple time periods, each time period with the multiple frequency carriers corresponding to a second OFDM symbol such that the second OFDM frame includes multiple second OFDM symbols sharing the same grid of multiple frequency subcarriers and multiple time periods as the first OFDM frame, where a second OFDM symbol is received on multiple frequency subcarriers during a time period, the second OFDM frame including known, second reference OFDM symbols that are located at corresponding time-frequency resource elements in the grid which are different than the corresponding time-frequency resource elements to which the known, first reference OFDM signals are located at the first OFDM frame signal, and using the known, first reference OFDM symbols in the first OFDM frame signal and the known, second reference OFDM symbols in the second OFDM frame signal to demodulate the first OFDM frame signal and the second OFDM frame signal. 2. The reception method according to claim 1 , wherein the first and second OFDM frame signals also include OFDM data symbols located at resource elements different than the resource elements located at the known reference OFDM symbols. 3. The reception method according to claim 1 , wherein the reception method is used in a multi-input multi-output (MIMO) system. 4. The reception method according to claim 3 , wherein the MIMO system supports closed loop and open loop MIMO modes. 5. The reception method according to claim 1 , wherein the known reference OFDM symbols include pilot OFDM symbols and OFDM symbols used for demodulation. 6. The reception method according to claim 5 , wherein the time-frequency resource elements in the grid located at the pilot OFDM symbols in the first OFDM frame signal are different from the time-frequency resource elements in the grid located at the OFDM symbols used for demodulation in the first OFDM frame signal. 7. The reception method according to claim 1 implemented in a user equipment. 8. Apparatus comprising: a receiver to receive a first radio signal transmitted from a first antenna at a transmitter and a second radio signal transmitted from a second antenna at the transmitter different from the first antenna, conversion circuitry to convert the first radio signal to a first orthogonal frequency division multiplexing (OFDM) frame signal and the second radio signal to a second OFDM frame signal; and wherein the first OFDM frame signal includes a grid of multiple frequency subcarriers and multiple time periods, each time period with the multiple frequency carriers corresponding to a first OFDM symbol such that the first OFDM frame includes multiple first OFDM symbols, where a first OFDM symbol is carried on multiple frequency subcarriers during a time period, the first OFDM frame including known, first reference OFDM symbols located at corresponding time-frequency resource elements in the grid, each resource element being defined by a one of the multiple frequency subcarriers and one of the multiple time periods, and wherein the second OFDM frame signal includes the grid of multiple frequency subcarriers and multiple time periods, each time period with the multiple frequency carriers corresponding to a second OFDM symbol such that the second OFDM frame includes multiple second OFDM symbols sharing the same grid of multiple frequency subcarriers and multiple time periods as the first OFDM frame, where a second OFDM symbol is received on multiple frequency subcarriers during a time period, the second OFDM frame including known, second reference OFDM symbols that are located at corresponding time-frequency resource elements in the grid which are different than the corresponding time-frequency resource elements to which the known, first reference OFDM signals are located at the first OFDM frame signal, and a demodulator to demodulate the first OFDM frame and the second OFDM frame using the known, first reference OFDM symbols in the first OFDM frame signal and the known, second reference OFDM symbols in the second OFDM frame signal. 9. The apparatus according to claim 8 , wherein the first and second OFDM frame signals also include OFDM data symbols located at resource elements different than the resource elements located at the known reference OFDM symbols. 10. The apparatus according to claim 8 , wherein the apparatus is configured to be used in a multi-input multi-output (MIMO) system. 11. The apparatus according to claim 10 , wherein the MIMO system supports closed loop and open loop MIMO modes. 12. The apparatus according to claim 8 , wherein the known reference OFDM symbols include pilot OFDM symbols and OFDM symbols used for demodulation. 13. The apparatus according to claim 12 , wherein the time-frequency resource elements in the grid assigned to the pilot OFDM symbols in the first OFDM frame signal are different from the time-frequency resource elements in the grid assigned to the OFDM symbols used for demodulation in the first OFDM frame signal. 14. The apparatus according to claim 8 , wherein the apparatus is configured to be implemented in a user equipment.