RU2003125611A - METHOD FOR ADAPTIVE DISTRIBUTION OF FREQUENCY-TIME RESOURCE, ADAPTIVE MODULATION, CODING AND ADJUSTMENT OF POWER IN COMMUNICATION SYSTEM - Google Patents

Claims (9)

1. A method for adaptive time-frequency resource allocation, adaptive modulation, coding and power adjustment in a communication system of a base station and N subscriber stations, in which for each subscriber station it is necessary to ensure the transmission of the required amount of data with a given quality in each frame of the forward and reverse channels, consisting in the fact that for each generated frame of the forward and reverse channels for each subscriber station, the required values of energy parameters for various types of codes are determined modulation and modulation depending on the specified quality, measure the values of energy parameters in the current frame of the forward and reverse channels, transmit the values of energy parameters measured in the forward channel to the base station, characterized in that for each subscriber station, determine the required values of energy parameters for various types of coding and modulation depending on a given amount of data necessary for transmission of forward and reverse channels in the generated frame, the magnitude of the energy is predicted of the physical parameters of the generated frame of the forward and reverse channels from the transmission powers and the measured energy parameters of the previous frames, determine the required values of transmission powers for various types of coding and modulation depending on the required values and the predicted value of the energy parameters, exclude from further consideration the types of coding and modulation, for which the required value of transmission powers is unattainable due to restrictions on the range of power adjustment, for all remaining species of coding and modulation determine the amount of time-frequency resource necessary to transmit the required amount of data in the generated frame of the forward and reverse channels, summarize the necessary values of the time-frequency resource N of subscriber stations corresponding to the remaining types of coding and modulation with a maximum data rate, and compare the resulting amount with the available time-frequency resource of the generated frame, in case of not exceeding, assign each subscriber station type of modulation and coding, as well as the corresponding transmit power and the value of the time-frequency resource in such a way as to minimize the average m generality generated transmission frame provided all the necessary data in case of exceeding the magnitude of the time-frequency resource is partitioned between subscriber stations according to their priorities and assigning to each subscriber station type modulation and coding with maximum data rate and corresponding transmit power. 2. The method according to claim 1, characterized in that the signal / noise ratio or the signal / noise ratio, or the signal / (noise + noise) ratio, or the listed parameters normalized to the transmission power are used as energy parameters. 3. The method according to claim 1, characterized in that the quality is evaluated as the probability of a bit error or the probability of a frame error, or the probability of a block error, or as a delay in transmitting data, or the stability of a delay in transmitting data, or as any combination of these characteristics. 4. The method according to claim 1, characterized in that the required values of the energy parameters for various types of coding and modulation are determined by the dependence of quality on the energy parameter and the amount of data required for transmission. 5. The method according to claim 1, characterized in that the magnitude of the energy parameters of the generated frame of the forward and reverse channels is predicted as a weighted sum of the measured energy parameters of the previous frames. 6. The method according to claim 1, characterized in that the desired value of the transmit power is determined as a linear dependence on the ratio of the required and predicted values of the energy parameters for each type of coding and modulation. 7. The method according to claim 1, characterized in that the value of the time-frequency resource required to transmit the required amount of data in the generated frame of the forward and reverse channels is determined by the type of coding and modulation. 8. The method according to claim 1, characterized in that the average power of the generated frame is minimized by selecting such a set of modulation and coding types for subscriber stations from the possible sets at which the minimum average power of the generated frame is achieved provided all the necessary data is transmitted. 9. The method according to claim 1, characterized in that the distribution of the time-frequency resource between subscriber stations in accordance with their priority is carried out in such a way that, with the same priority of the subscriber stations of each subscriber station, a time-frequency resource is allocated whose magnitude is proportional to the required time-frequency resource resource for each subscriber station, and when there are two groups of subscriber stations, one with high priority and the other with low priority, then if there is no possibility of transmitting all data of subscriber stations of a group with a high priority, each subscriber station of a group with a high priority is allocated a time-frequency resource, the value of which is proportional to the required frequency-time resource for each subscriber station of a group of a high priority, and the subscriber stations of a group with a low priority do not have a time-frequency resource allocate, if the transfer of all data of the subscriber stations of the group with high priority is possible, then the remaining time-frequency resource is distributed between the subscriber stations iyami group with a low priority in proportion to their desired time frequency resources.