RU2002133468A

RU2002133468A - METHOD AND DEVICE FOR ADAPTATION OF DATA TRANSMISSION SPEED DURING BATCH DATA TRANSFER

Info

Publication number: RU2002133468A
Application number: RU2002133468/09A
Authority: RU
Inventors: Эдуарду А. С. ЭСТЕВИС; Рашид А. Аттар; Нагабхушана Т. СИНДХУШАЯНА
Original assignee: Квэлкомм Инкорпорейтед
Priority date: 2000-05-12
Filing date: 2001-05-11
Publication date: 2004-04-27

Claims

1. A method of increasing the data transmission rate of a communication network, which consists in forming a plurality of data slots and a plurality of empty slots at an access point, wherein a plurality of data slots are interleaved with a plurality of empty slots to form a plurality of packets, transmitting a plurality of packets to an access terminal and detect in the access terminal, a plurality of packets, while the access terminal transmits to the access point at least one indicator message indicating the reception status.

2. The method according to claim 1, characterized in that the plurality of data slots are interleaved with the plurality of empty slots according to the interleaving pattern.

3. The method according to claim 1, characterized in that the plurality of data slots are interleaved with the plurality of empty slots so that each Nth slot is an empty slot.

4. The method according to claim 1, characterized in that a plurality of data slots are interleaved with a plurality of empty slots in accordance with an aperiodic structure.

5. A method of increasing the data transfer rate for transmissions made from an access point to an access terminal, which comprises forming at the access point a plurality of data packets for transmission to the access terminal, wherein each of the plurality of data packets contains at least one slot, and the access point denotes each slot in each of the plurality of data packets, as a data slot or an empty slot, transmit a plurality of data packets to the access terminal at an initial data rate, determine a set of sc of the channel parameters, transmit a data request message to the access point based on the set of estimated channel parameters, while the transmission of multiple data packets to the access terminal is performed in accordance with the data request message, the set of valid channel parameters is determined in the access terminal transmit an indicator message to the access point if the set of valid channel parameters can withstand a given quality level, while said transmission is performed during the interval time corresponding to at least one empty slot, and change the subsequent data packet for transmission to the access terminal in accordance with the indicator message received at the access point.

6. The method according to claim 5, characterized in that the indicator message is an indicator message Stop if the set of valid channel parameters determines a noise level less than the noise level corresponding to the set of estimated channel parameters.

7. The method according to claim 5, characterized in that the indicator message is an indicator message Continue if the set of valid channel parameters determines the noise level greater than the noise level corresponding to the set of estimated channel parameters.

8. The method according to claim 5, characterized in that the indicator message contains a bit received during slot n, and the access point denotes each slot in a plurality of data packets in accordance with an interlace pattern, while changing a subsequent data packet for transmission to the terminal access decision that the bit is a request to complete the transfer, if the repetition of one of the many data packets is already planned for slot n + 1, decide that the bit is a request for retransmission, if the transmission is already transmitted the chum ended in slot n-1, decide that the bit is a request for retransmission if the previous indicator bit caused a retransmission of an already transmitted packet in slot n-1, and for many data packets fewer retransmissions have already been processed than the specified number, and decide that the bit is a false signal if no conditions are met.

9. The method according to claim 5, characterized in that the indicator message contains a bit received during slot n, and the access point denotes each slot in the set of data packets in accordance with the interval p, while changing the subsequent data packet for transmission to the terminal access decision that the bit is a request to complete the transfer, if the repetition of one of the many data packets is already planned for slot n + 1, decide that the bit is a request for retransmission if the transmission of the already transmitted packet for it ended in slot n – p + 1, they decide that the bit is a request for retransmission if the previous indicator bit caused the retransmission of an already transmitted packet in slot n-p + 1, and for many data packets fewer retransmissions have already been processed than a given number, and decide that the bit is a false signal if no conditions are met.

10. The method according to claim 5, characterized in that the indicator message contains a bit received during slot n, and when changing the subsequent data packet for transmission to the access terminal, it is decided that the bit is a request to complete the transmission if one of the many data packets have already been planned for slot n + 1, decide that the bit is a request for retransmission if the transmission of the already transmitted packet has ended in slot nN (i), while N (i) is the number of empty slots between data slots, and i def divides the data rate index number, decide that the bit is a request for retransmission if the previous indicator bit caused the retransmission of an already transmitted packet in slot nN (i), and for many data packets fewer retransmissions have already been processed than the specified number, and decide that the bit is a false signal if no conditions are met.

11. The method according to claim 5, characterized in that the set of valid channel parameters contains the ratio of the signal to interference and noise.

12. The method according to claim 5, characterized in that when determining the set of valid channel parameters, a plurality of data packets are decoded in the access terminal to determine a packet error event, the packet error event determining successful reception of a data packet or erroneous reception of a data packet.

13. The method according to p. 12, characterized in that when decoding a plurality of data packets in an access terminal, a plurality of bits of a cyclic redundancy code (CRC) are decoded, and a decoded plurality of CRC bits are compared with an estimated quality indicator, and the estimated quality indicator is calculated from the set of estimated parameters channel.

14. The method according to claim 5, characterized in that when transmitting the indicator message to the access point, code symbols are processed to determine the value of the probability of transmission errors, and the indicator message is transmitted Continue if the value of the probability of transmission errors is greater than a predetermined level.

15. The method according to p. 12, characterized in that the indicator message contains a bit received during slot n, and the access point denotes each slot in the set of data packets in accordance with the interlace pattern, while changing the subsequent data packet for transmission to the terminal access decision that the bit is a request to complete the transfer, if the repetition of one of the many data packets is already planned for slot n + 1, decide that the bit is a request for retransmission, if the transmission is already transmitted packets ended in slot n-1, decide that the bit is a request for retransmission if the previous indicator bit caused the retransmission of an already transmitted packet in slot n-1, and for many data packets fewer retransmissions have already been processed than the specified number, and decide that the bit is a false signal if no conditions are met.

16. The method according to p. 12, characterized in that the indicator message contains a bit received during slot n, and the access point denotes each slot in the set of data packets in accordance with the interval p, while changing the subsequent data packet for transmission to the terminal access decision that the bit is a request to complete the transfer, if the repetition of one of the many data packets is already planned for slot n + 1, decide that the bit is a request for retransmission, if the transmission of the already transmitted packet ended in slot n-p + 1, decide that the bit is a request for retransmission if the previous indicator bit caused the retransmission of an already transmitted packet in slot n-p + 1, and for many data packets fewer retransmissions have already been processed than a given number, and decide that the bit is a false signal if no conditions are met.

17. The method according to p. 12, characterized in that the indicator message contains a bit received during slot n, and when changing a subsequent data packet for transmission to the access terminal, it is decided that the bit is a request to complete the transfer if one of the many data packets have already been planned for slot n + 1, decide that the bit is a request for retransmission if the transmission of the already transmitted packet has ended in slot nN (i), where N (i) is the number of empty slots between data slots, and i is determined is the data rate index number, decide that the bit is a request for retransmission if the previous indicator bit caused a retransmission of an already transmitted packet in slot nN (i) and fewer retransmissions have already been processed for multiple data packets than the specified number, and decide that the bit is a false signal if no conditions are met.

18. A system for increasing the data transfer rate for transmissions from an access point to an access terminal, comprising a processor located in an access point configured to generate a plurality of interleaved data slots and empty slots for transmission to an access terminal.

19. The system according to p. 18, characterized in that it further comprises a processor located in the access terminal, configured to decode a plurality of interleaved data slots and empty slots, determine a quality value corresponding to the transmissions from the access point to the access terminal, generate a request message the data rate for transmission in accordance with the quality value, and the formation of indicator messages in accordance with the quality value, while the indicator message is formed and re aetsya to the access point during a time interval corresponding to at least one empty slot.

20. The system according to claim 19, characterized in that the quality value is determined by the value of interference and channel noise.

21. The system according to claim 19, characterized in that the quality value is determined by the error value of the packet based on the decoded set of data slots.

22. Device for adjusting the process of controlling the data rate without feedback, containing a scheduler located in the access point for scheduling a plurality of interleaved data slots and empty slots, wherein the scheduler is connected to at least one buffer that stores data for transmission over forward link channel, a data rate request decoder connected to the scheduler for decoding a plurality of request messages to receive data received on the reverse channel communication lines, and for sending to the input of the scheduler information a request for a data transfer rate, and an indicator message decoder connected to the scheduler, for decoding a plurality of indicator messages received on the reverse link channel, and for supplying decoded indicator messages to the input of the scheduler.

23. Device for adjusting the process of controlling the data transfer rate without feedback, containing an evaluation element located in the access terminal for determining a quality value corresponding to the forward link channel, an open-loop data rate control element connected to the evaluation element for generating a plurality of messages requesting a data rate, wherein the open-loop data rate control element uses a quality value received from an estimate element to determine the content of a plurality of messages with a request for a data transmission rate, a feedback data rate control element connected to the evaluation element and the decoder to generate a plurality of indicator messages based on the quality value from the evaluation element or the error value from the decoder, wherein the decoder is capable of decoding a plurality of interleaved data slots and empty slots received on the forward link channel, a controller connected to the decoder and the estimation element , To activate the element data rate control and feedback in accordance with a set of thresholds.