Transmission power relative to a propagation path having a variation in gain is controlled to increase communication channel capacity, and a data rate is controlled in accordance with the variation of the increased communication channel capacity. In order to increase the communication channel capaci
Transmission power relative to a propagation path having a variation in gain is controlled to increase communication channel capacity, and a data rate is controlled in accordance with the variation of the increased communication channel capacity. In order to increase the communication channel capacity, the transmission power is determined so that the sum of noise power (=received noise power/propagation path gain) converted into one at a transmitter and the transmission power becomes constant. As a result, contrary to the background art, the transmission power is controlled to be reduced when the propagation path gain decreases and to be increased when the propagation path gain increases.
대표청구항▼
What is claimed is: 1. A data rate control method in a wireless communication apparatus, comprising the steps of: encoding one coding unit of transmission data; dividing said coding unit of transmission data into a plurality of blocks; transmitting one of said plurality of blocks to a destination w
What is claimed is: 1. A data rate control method in a wireless communication apparatus, comprising the steps of: encoding one coding unit of transmission data; dividing said coding unit of transmission data into a plurality of blocks; transmitting one of said plurality of blocks to a destination wireless communication apparatus; and monitoring for reception notification from said destination wireless communication apparatus, wherein at least a block after said transmitted block is not transmitted if the reception notification received from the destination wireless communication apparatus indicates that said transmission data was decoded correctly at the destination wireless communication apparatus. 2. A communication control method for transmission control in a wireless communication system, comprising: a first step for judging the quality of a propagation path between a receiver and a transmitter; a second step for controlling a data rate of a signal transmitted from said transmitter to said receiver; and a third step for controlling transmission power of the signal transmitted from said transmitter to said receiver in response to the quality of the propagation path, wherein said second step includes a step for generating and transmitting a coding unit with which communication channel coding is executed and a step for judging whether or not to continue to transmit the coding unit at any time of transmitting at least a part of the coding unit to thereby control the data rate of transmitting in response to the presence/absence of error for the coding unit, and wherein said third step includes a step for increasing transmission power when the quality of the propagation path is good and decreasing transmission power when the quality of the propagation path is not good. 3. The communication control method according to claim 2, wherein said second step includes a step for dividing encoded transmission data into a plurality of blocks to control the data rate of transmitting said plurality of blocks in response to the presence/absence of error for the coding unit. 4. The communication control method according to claim 3, wherein said second step includes a step for terminating transmission of the coding unit and starting transmission of a next coding unit when no error is notified. 5. A wireless communication system comprising: a receiver; and a transmitter, wherein said receiver transmits a first signal used to judge the quality of a propagation path between said receiver and said transmitter, wherein said transmitter controls a data rate of a transmission signal and, in response to the quality of the propagation path judged from said first signal transmitted from said receiver, controls transmission power of a second signal transmitted from said transmitter to said receiver, wherein the data rate is controlled by generating and transmitting a coding unit with which communication channel coding is executed in response to the presence/absence of error for the coding unit at any time of transmitting at least a part of the coding unit, and wherein the transmission power is controlled to be increased when the quality of the propagation path is good and to be decreased when the quality of the propagation path is not good. 6. The wireless communication system according to claim 5, wherein the data rate is controlled by dividing encoded transmission data into said plurality of blocks to control the data rate of transmitting said plurality of blocks in response to the presence/absence of error for the coding unit. 7. The wireless communication system according to claim 6, wherein the data rate is controlled by terminating transmission of the coding unit and starting transmission of a next coding unit when no error is notified. 8. A transmitting apparatus of a wireless communication system comprising: a data rate control part for controlling a data rate of a transmission signal; a transmission power control part for controlling transmission power of a signal transmitted from said data rate control part; and a wireless communication part for transmitting a first signal with the controlled transmission power and receiving a second signal from a receiving apparatus that received the first signal, wherein said wireless communication part receives the second signal including the presence/absence of error from said receiving apparatus, wherein said data rate control part generates and transmits a coding unit with which communication channel coding is executed and judges whether or not to continue to transmit the coding unit at any time of transmitting at least a part of the coding unit to thereby control the data rate of transmitting in response to the presence/absence of error for the coding unit, and wherein said transmission power control part controls the transmission power to be transmitted from said wireless communication part to said receiving apparatus to be increased when the quality of a propagation path is good and to be decreased when the quality of the propagation path is not good. 9. The transmitting apparatus according to claim 8, wherein said data rate control part controls the data rate by dividing encoded transmission data into a plurality of blocks to control the data rate of transmitting said plurality of blocks in response to the presence/absence of error for the coding unit. 10. The transmitting apparatus according to claim 9, wherein said data rate control part controls the data rate by terminating transmission of the coding unit and starting transmission of a next coding unit when no error is notified. 11. A receiving apparatus of a wireless communication system comprising: a wireless communication part for receiving a reception signal from a transmitting apparatus and transmitting a control signal for the reception signal; a data rate control part; and a control signal generating part for generating said control signal in response to the reception signal, wherein said data rate control part decodes coding units of said reception signal to generate a first control signal to be used for informing said transmitting apparatus of the presence/absence of error for a coding unit, and wherein said control signal generating part judges the quality of a propagation path between said receiving apparatus and said transmitting apparatus and generates a second control signal indicating to control transmission power to be transmitted from said wireless communication part to said receiving apparatus, the controlled transmission power, when the quality of the propagation path is a first quality, is higher than the controlled transmission power when the quality of the propagation path is a second quality, which is lower than the first. 12. The receiving apparatus of the wireless communication system according to claim 11, wherein said data rate control part uses a plurality of blocks generated by dividing encoded transmission data from said transmitting apparatus to decode said coding units of said reception signal. 13. The receiving apparatus of the wireless communication system according to claim 12, wherein said data rate control part starts decoding of a next coding unit after a time when said first control signal indicating no error in said decoding is notified. 14. A transmitting apparatus of a wireless communication system comprising: a data rate control part for controlling a data rate of a transmission signal; a transmission power control part for controlling transmission power of a signal transmitted from said data rate control part; and a wireless communication part for transmitting a first signal with controlled transmission power and receiving a second signal from a receiving apparatus that received the first signal, wherein said wireless communication part receives the second signal including the presence/absence of error from said receiving apparatus, wherein said data rate control part generates and transmits a coding unit with which communication channel coding is executed and judges whether or not to continue to transmit the coding unit at any time of transmitting at least a part of the coding unit to thereby control the data rate of transmitting in response to the presence/absence of error for the coding unit, and wherein said transmission power control part controls the transmission power to be transmitted from said wireless communication part to said receiving apparatus to be increased when the quality of a propagation path is good and to be decreased when the quality of the propagation path is not good based on a time average value P-const and the quality of the propagation path. 15. The transmitting apparatus according to claim 14, wherein the quality of the propagation path is a propagation path gain g(t) and a noise power Nr(t) in said receiving apparatus at a time (t). 16. The transmitting apparatus according to claim 15, wherein the time average value P-const of the propagation path is CO Ave(Nr(t))/Ave(g(t)), where CO is a constant, Ave(Nr(t)) is an average value of noise power in said receiving apparatus, and Ave(g(t)) is an average propagation path gain. 17. The transmitting apparatus according to claim 15, wherein the transmission power S(t) satisfies equation S(t)=P-const−Nr(t)/g(t), where g(t) is propagation path gain at a time (t) and Nr(t) is the noise power in said receiving apparatus at the time (t). 18. A receiving apparatus of a wireless communication system comprising: a wireless communication part for receiving a reception signal from a transmitting apparatus and transmitting a control signal for the reception signal; a data rate control part; a transmission power control part for controlling transmission power of a signal transmitted from said data rate control part; and a control signal generating part for generating said control signal in response to the reception signal, wherein said data rate control part decodes coding units of said reception signal to generate a first control signal to be used for informing said transmitting apparatus of the presence/absence of error for a coding unit, and wherein said transmission power control part controls the transmission power to be transmitted from said wireless communication part to said receiving apparatus to be increased when the quality of a propagation path is good and to be decreased when the quality of the propagation path is not good based on a time average value P-const and the quality of the propagation path. 19. The receiving apparatus of the wireless communication system according to claim 18, wherein the quality of the propagation path is a propagation path gain g(t) and a noise power Nr(t) in said receiving apparatus at a time (t). 20. The receiving apparatus of the wireless communication system according to claim 19, wherein the time average value P-const of the propagation path is CO Ave(Nr(t))/Ave(g(t)), where CO is a constant, Ave(Nr(t)) is an average value of noise power in said receiving apparatus, and Ave(g(t)) is an average propagation path gain. 21. The receiving apparatus of the wireless communication system according to claim 19, wherein the transmission power S(t) satisfies equation S(t)=P-const−Nr(t)/g(t), where g(t) is the propagation path gain at a time (t) and Nr(t) is the noise power in said receiving apparatus at the time (t).
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