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ADAPTATION OF GROWTH subchannel in a system with interference cancellation
ADAPTATION OF GROWTH subchannel in a system with interference cancellation
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机译:具有干扰消除功能的系统中自适应增长子信道
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摘要
1. method, containing:;over sampling of signals transmitted from the multiple terminals access to the sample correspond to the data channel according to the channel of the pilot symbol. data and data of network traffic;;the reconstruction of at least some of the data channel of a pilot symbol, the channel of data signals and the data traffic channel.;neutralizing at least part of the reconstructed, at least some of the data channel of a pilot signal, the data signal and the data channel of the kang ala traffic samples.;processing of samples u0434u043bu00a0 u043fu043eu043bu0443u0447u0435u043du0438u00a0 traffic data transferred from the first terminal access;;measurement of at least one of the frequency error package (per) traffic, u043eu0442u043du043eu0448u0435u043du0438u00a0 pilot signal to the mutual interference and noises (SINR) and total power signals; and;the at least one of the power and the growth of at least one of the channels of the pilot symbol, the channel and the channel of data traffic, the accordance with the measured at least one of the frequency error of a traffic SINR pilot symbol and explosive power.;2. method for 1, in which the signals contain signals with the code division multiple access (cdma) channels.;3. method for 1, which also includes:;the u043fu0440u0438u043du00a0u0442u044bu0445 samples in the buffer; and;the deduction of at least some of the reconstructed data channel of a pilot symbol, the channel of data signals and the data channel from the stored traffic. u043fu0440u0438u043du00a0u0442u044bu0445 samples.;4. method for 1, in which a channel of signals includes at least one channel indicator speed reverse data transmission (RRI), channel u0432u0441u043fu043eu043cu043eu0433u0430u0442u0435u043bu044cu043du043eu0433 the pilot symbol, the channel u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 data request (drc), the channel u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 data source (dsc) and channel u043fu043eu0434u0442u0432u0435u0440u0436u0434u0435u043du0438u00a0 (ascus).;5. method for 1, in which the channel of transmission of signals includes at least one of the allocated channel physical u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 (DPCCH), expanded u0432u044bu0434u0435u043bu0435u043du043d physical u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 channel (e - DPCCH) and high-speed dedicated physical channel u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 (hs DPCCH).;6. method for 1, in which the channel of transmission of signals includes a channel support pilot symbol, and also contains a reconstruction of the canal u0441u043fu043eu043cu043eu0433u0430u0442u0435u043bu044cu043du043eu0433u043e pilot symbol based channel estimation.;7. method for 1, in which the deduction of reconstructed data channel pilot symbol contains:;definition of the evaluation channel u0434u043bu00a0 multiple terminals access;;use of estimates channel u0434u043bu00a0 reconstruction data channel pilot symbol; and;the deduction of the reconstructed data channel pilot symbol samples u0434u043bu00a0 all terminals access.;8. method for 1, in which the deduction of reconstructed data channel of signals includes:;definition of the evaluation channel u0434u043bu00a0 multiple terminals access;;use of estimates channel u0434u043bu00a0 reconstruction of data channel signals; and;the deduction of the reconstructed data channel of signals in all samples u0434u043bu00a0 terminal access.;9. method for 1, in which the deduction of reconstructed data channel data contains:;definition of the evaluation channel u0434u043bu00a0 multiple terminals access;;use of estimates u0434u043bu00a0 reconstruction data channel and data channel.;the deduction of the reconstructed data channel data samples u0434u043bu00a0 all terminals access.;10. method for 1, in which the at least one power and growth contains:;the increase in channel transmission of signals, when the read data channel traffic.;11. method for 1, in which the at least one power and growth contains:;the u043eu0442u043du043eu0448u0435u043du0438u00a0 data traffic to pilot data (u04422u0440) u0434u043bu00a0, at least one terminal access.;12. method for 1, in which the at least one power and growth contains:;the office of the u043fu0440u0435u0432u044bu0448u0435u043du0438u00a0 over heat level (s) relative to a threshold u0437u043du0430u0447u0435u043du0438u00a0.;13. method for 1, in which the at least one power and growth contains:;the use of a pilot symbol channel u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 mechanism with closed circuit, the internal circuit and the external circuit.;14. way on p.13, in which external circuit compares the measured value with the target value of the frequency error of a traffic frequency error packet traffic.;15. way on p.13, in which external circuit compares the measured value of the frequency u0440u0430u0437u0440u0443u0448u0435u043du0438u00a0 information channel signals from the target value of the frequency of going to turn the place u0448u0435u043du0438u00a0 information channel of signals.;16. method for p.15, in which the channel of transmission of the data u043fu0440u0435u0434u0441u0442u0430u0432u043bu00a0u0435u0442 a channel u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 data transmission speed (drc).;17. method for p.15, in which the channel of transmission of data contains enhanced dedicated channel physical u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 (e - DPCCH).;18. method for p.15, in which the channel of transmission of data includes a dedicated channel physical u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 (DPCCH).;19. method for 1, in which the at least one power and growth contains:;measurement of signal strength after u0432u044bu0447u0438u0442u0430u043du0438u00a0, at least one of the channels, the data transmission of the pilot symbol and the data traffic; and;the use of u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 growth of closed circuit u0434u043bu00a0 adaptation u0438u0437u043cu0435u043du0435u043du0438u00a0 u043eu0442u043du043eu0448u0435u043du0438u00a0 traffic data to the pilot data (u04422u0440) based on the measured power. was chasing after neutralization.;20. way on p.19, which also contains the periodic transmission of u0441u043eu043eu0431u0449u0435u043du0438u00a0 with appropriate changes of u043eu0442u043du043eu0448u0435u043du0438u00a0 data traffic to pilot data (u04422u0440) at least e, one terminal access.;21. way on p.19, which change u043eu0442u043du043eu0448u0435u043du0438u00a0 u04422u0440 adapted through the channel u043fu0440u00a0u043cu043eu0439 transfer u043fu043eu0434u0442u0432u0435u0440u0436u0434u0435u043du0438u00a0 (ascus).;22. method for 1, in which the at least one power and growth contains:;measurement of the effective u0437u043du0430u0447u0435u043du0438u00a0 u043fu0440u0435u0432u044bu0448u0435u043du0438u00a0 over heat level (s) with the window u0443u0441u0440u0435u0434u043du0435u043du0438u00a0 whose length is at least twice the period of u043eu0431u043du043eu0432u043bu0435u043du0438u00a0 u0443u043fu0440u0430u0432u043bu0435u043d u0438u00a0 capacity.;23. method for 1, in which the at least one power and growth contains:;the increase of open circuit u0434u043bu00a0 u043eu0442u043du043eu0448u0435u043du0438u00a0 data traffic to pilot data (u04422u0440) and the closed circuit of the pilot symbol.;24. method for the p.23, in which management of closed circuit includes an internal circuit which regulates the power of the pilot symbol in accordance with the time u043eu0433u043eu0432u044bu043c value.;25. way on p.24, which also contains:;increasing the threshold u0437u043du0430u0447u0435u043du0438u00a0 when the frequency u0440u0430u0437u0440u0443u0448u0435u043du0438u00a0 information u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 data transmission speed (drc) exceeds a second threshold value; and;reducing the threshold u0437u043du0430u0447u0435u043du0438u00a0 when the frequency is below the second threshold u0440u0430u0437u0440u0443u0448u0435u043du0438u00a0 information u043du0430u0445u043eu0434u0438u0442u0441u00a0 u0437u043du0430u0447u0435u043du0438u00a0.;26. method for 1, which also includes:;the u0438u0437u043cu0435u043du0435u043du0438u00a0 u043eu0442u043du043eu0448u0435u043du0438u00a0 data traffic to pilot data (u04422u0440) when the measured value exceeds the threshold value of the frequency error); and;the u0438u0437u043cu0435u043du0435u043du0438u00a0 u043eu0442u043du043eu0448u0435u043du0438u00a0 data traffic to pilot data (u04422u0440) when the measured value of frequency error packet traffic is lower than the threshold value.;27. method for 1, which also includes:;adaptation u0443u0432u0435u043bu0438u0447u0435u043du0438u00a0 channel transmission of signals in accordance with the measured at least one of the frequency error of the traffic, the ratio of p u0438u043bu043eu0442u043du043eu0433u043e symbol level mutual interference and noise (SINR) and total output signals.;28. way on p.27, which u0430u0434u0430u043fu0442u0430u0446u0438u00a0 increase channels of signals contains a comparison of the measured u0437u043du0430u0447u0435u043du0438u00a0 u043fu0440u0435u0432u044bu0448u0435u043du0438u00a0 over the heat level of trust the u043fu0440u0435u0432u044bu0448u0435u043du0438u00a0 on heat rate.;29. way on p.27, which u0430u0434u0430u043fu0442u0430u0446u0438u00a0 increase channels of data contains the comparison of the measured frequency information u0437u043du0430u0447u0435u043du0438u00a0 u0440u0430u0437u0440u0443u0448u0435u043du0438u00a0 u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 sc u043eu0440u043eu0441u0442u044cu044e data transfer (drc) to the target value of the frequency u0440u0430u0437u0440u0443u0448u0435u043du0438u00a0 information management data transmission speed (drc).;30. method for 1, which also includes:;the transfer of multiple teams of many sectors in the terminal access, each access request requests a terminal to reduce the data traffic to pilot ratio a data (u04422u0440);;identification query across multiple requests from the fully loaded sectors with the lowest u0443u043cu0435u043du044cu0448u0435u043du0438u00a0 u043eu0442u043du043eu0448u0435u043du0438u00a0 data traffic to pilot data (u04422u0440).;31. method for p.30, which also contains the identification of fully loaded sectors.;32. method for 1, which also includes:;the transfer of multiple requests from multiple sectors in the terminal access, each access request requests a terminal to reduce the ratio of traffic data. u043eu0442u043du044bu043c data (u04422u0440);;identification query across multiple requests from u043eu0431u0441u043bu0443u0436u0438u0432u0430u043du0438u00a0 sectors associated with the terminal access.;33. method for 1, in which the at least one power and growth contains:;the growth of the signal channels and traffic channels.;34. u0431u0430u0437u043eu0432u0430u00a0 u0441u0442u0430u043du0446u0438u00a0, u0441u043eu0434u0435u0440u0436u0430u0449u0430u00a0:;a non-volatile storage device, with the possibility of u0441u043eu0445u0440u0430u043du0435u043du0438u00a0 samples data signals u043fu0440u0438u043du00a0u0442u044bu0445 from multiple terminals access the sample contain hell, the dunn's e channel pilot symbol, the data channel of the channel signals and data traffic.;u0434u0435u043cu043eu0434u0443u043bu00a0u0442u043eu0440 made with the possibility of u0434u0435u043cu043eu0434u0443u043bu00a0u0446u0438u0438 data service signal channel and data channel traffic u0434u043bu00a0 one or more terminals access;;a decoder, with the possibility of u0434u0435u043au043eu0434u0438u0440u043eu0432u0430u043du0438u00a0 u0434u0435u043cu043eu0434u0443u043bu0438u0440u043eu0432u0430u043du043du044bu0445 data service signal channel and data channel bandwidth to u043eu043fu0440u0435u0434u0435u043bu0435u043du0438u00a0 that of kang ala of signal and data channel traffic u0434u0435u043au043eu0434u0438u0440u043eu0432u0430u043du044b correctly;;the reconstruction is the possibility of reconstruction of the data channel signal and the right channel data traffic u0434u043bu00a0 data u0434u0435u043au043eu0434u0438u0440u043eu0432u0430u043du043du044bu0445 kang ala of signal and data channel bandwidth, and a module reconstruction also has the possibility of reconstruction of the data channel of a pilot symbol using the improb u0443u00a0 evaluation channel;;the module u0432u044bu0447u0438u0442u0430u043du0438u00a0 made with the possibility of u0432u044bu0447u0438u0442u0430u043du0438u00a0 reconstructed data channel of the pilot symbol, the reconstructed data channel of signals and the reconstructed data traffic channel of the samples stored in the memory device.;the module u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 capacity with the possibility of a u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 channel pilot symbols, at least one terminal access after u0432u044bu0447u0438u0442u0430 u043du0438u00a0 reconstructed data channel pilot symbol, the reconstructed data channel of signals and reconstructed data traffic of the channel selection rock, stored in the memory device; and;the module u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 gains made with the possibility of u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 change u043eu0442u043du043eu0448u0435u043du0438u00a0 data traffic to pilot data (u04422u0440) on the basis of the measured and u043du0435u0439u0442u0440u0430u043bu0438u0437u043eu0432 u0430u043du043du044bu0445 mutual interference.
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