초록 ▼

A wireless communication method for improving the transmission efficiency in an upstream communication in OFDMA-TDD system or the like. An upstream transmission timing control part (108), which employs this method, controls, based on the OFDMA-TDD scheme, the transmission timings of a mobile station

A wireless communication method for improving the transmission efficiency in an upstream communication in OFDMA-TDD system or the like. An upstream transmission timing control part (108), which employs this method, controls, based on the OFDMA-TDD scheme, the transmission timings of a mobile station (#p) and a mobile station (#M) communicating with a base station (100). The upstream transmission timing control part (108) acquires information about the propagation delay times τp and τM of the mobile station (#p) and mobile station (#M). When the propagation delay time τp is shorter than the propagation delay time τM, the upstream transmission timing control part (108) decides the transmission timings of the mobile station (#p) and mobile station (#M) such that the timing at which the base station (100) starts receiving symbols from the mobile station (#p) in an upstream section is earlier, by αp times an OFDM symbol length (L) (where αp is a natural number), than the timing at which the base station (100) starts receiving symbols from the mobile station (#M) in the same section.

대표청구항 ▼

1. A transmission timing control method comprising: measuring propagation delay times between a base station apparatus and each of a plurality of mobile station apparatuses; andsetting a number of symbols, each of which has a guard interval, according to the respective propagation delay times, and a

1. A transmission timing control method comprising: measuring propagation delay times between a base station apparatus and each of a plurality of mobile station apparatuses; andsetting a number of symbols, each of which has a guard interval, according to the respective propagation delay times, and a transmission timing for a transmission signal for each of the plurality of mobile station apparatuses according to the respective propagation delay times and the set number of symbols, wherein:the number of symbols is set higher when a shorter propagation delay time is measured, andthe transmission timing is represented as a time interval from completing a reception of a signal transmitted from the base station apparatus at each of the mobile station apparatuses to starting a transmission of the transmission signal from each of the mobile station apparatuses. 2. The transmission timing control method according to claim 1, wherein the transmission timing is set earlier when the number of symbols is set higher. 3. The transmission timing control method according to claim 1, wherein a communication distance or a received power is measured to determine the propagation delay times. 4. The transmission timing control method according to claim 1, wherein transmission timings of transmission signals in a first mobile station apparatus and a second mobile station apparatus in the plurality of mobile station apparatuses are set such that, when a propagation delay time of the first mobile station apparatus is shorter than a propagation delay time of the second mobile station apparatus, a first timing at which the base station apparatus starts receiving a transmission signal from the first mobile station apparatus becomes α (where α is a natural number) times a symbol time length earlier than a second timing at which the base station apparatus starts receiving a transmission signal from the second mobile station apparatus. 5. The transmission timing control method according to claim 1, wherein the number of symbols and the transmission timing are set such that reception timings of respective transmission signals from the plurality of mobile station apparatuses are synchronized in symbol units at the base station apparatus. 6. The transmission timing control method according to claim 1, wherein at least one symbol in the set number of symbols is transmitted as a pilot symbol. 7. A mobile station apparatus comprising: an acquiring section that acquires a number of symbols, each of which has a guard interval, and a transmission timing for a transmission signal, wherein the number of symbols is set according to a propagation delay time between the mobile station apparatus and a base station apparatus and the transmission timing is set according to the propagation delay time and the set number of symbols; anda transmitting section that transmits the transmission signal including the set number of symbols, to the base station apparatus, wherein:the number of symbols is set higher when a shorter propagation delay time is measured, and the transmission timing is represented as a time interval from completing a reception of a signal transmitted from the base station apparatus at the mobile station apparatus to starting a transmission of the transmission signal from the mobile station apparatus. 8. The mobile station apparatus according to claim 7, wherein the transmission timing is set earlier when the number of symbols is set higher. 9. The mobile station apparatus according to claim 7, wherein the transmission timing is set such that when a propagation delay time of a first mobile station apparatus is shorter than a propagation delay time of a second mobile station apparatus in a plurality of mobile station apparatuses, a first timing at which the base station apparatus starts receiving a transmission signal from the first mobile station apparatus becomes α (where α is a natural number) times a symbol time length earlier than a second timing at which the base station apparatus starts receiving a transmission signal from the second mobile station apparatus. 10. The mobile station apparatus according to claim 7, wherein the number of symbols and the transmission timing are set such that reception timings of respective transmission signals from a plurality of mobile station apparatuses are synchronized in symbol units at the base station apparatus. 11. The mobile station apparatus according to claim 7, wherein the transmitting section transmits at least one symbol in the acquired number of symbols as a pilot symbol. 12. A base station apparatus comprising: a setting section that sets a number of symbols, each of which has a guard interval, according to respective propagation delay times between the base station apparatus and each of a plurality of mobile station apparatuses, and that sets a transmission timing for a transmission signal for each of the plurality of mobile station apparatuses according to the respective propagation delay times and the set number of symbols; anda report section that reports the set number of symbols and the set transmission timing to the respective mobile station apparatuses, whereinthe setting section sets the number of symbols higher for a shorter propagation delay time, and the transmission timing is represented as a time interval from completing a reception of a signal transmitted from the base station apparatus at each of the mobile station apparatuses to starting a transmission of the transmission signal from each of the mobile station apparatuses. 13. The base station apparatus according to claim 12, wherein the setting section sets the transmission timing earlier when the number of symbols is set higher. 14. The base station apparatus according to claim 12, wherein the setting section sets transmission timings of transmission signals in a first mobile station apparatus and a second mobile station apparatus in the plurality of mobile station apparatuses such that, when a propagation delay time of the first mobile station apparatus is shorter than a propagation delay time of the second mobile station apparatus, a first timing at which the base station apparatus starts receiving a transmission signal from the first mobile station apparatus becomes α (where α is a natural number) times a symbol time length earlier than a second timing at which the base station apparatus starts receiving a transmission signal from the second mobile station apparatus. 15. The base station apparatus according to claim 12, wherein the setting section sets the number of symbols and the transmission timing such that reception timings of respective transmission signals from the plurality of mobile station apparatuses are synchronized in symbol units at the base station apparatus. 16. The base station apparatus according to claim 12, wherein the transmitting section transmits at least one symbol in the set number of symbols as a pilot symbol.