Link adaptation for spatial multiplexing

12224,841

17/618341

June 12, 2019

A link adaptation method is disclosed for a transmitter node configured for spatial multiplexing of signals into streams and for transmission of spatially multiplexed streams over a forward channel, wherein each stream is intended for a receiver node. The method comprises selecting a transmission pre-coding setting for at least one of the spatially multiplexed streams based on an acquired channel estimate of the forward channel, estimating a forward channel disturbance component, wherein the forward channel disturbance component includes signal distortion for the forward channel caused by at least one hardware component of the transmitter node and/or the receiver node, and performing link adaptation for at least one of the spatially multiplexed streams based on the selected transmission pre-coding setting and the estimated forward channel disturbance component. Corresponding apparatus, transmitter node and computer program product are also disclosed.

Telefonaktiebolaget LM Ericsson (publ) (Stockholm, SE)

TELEFONAKTIEBOLAGET LM ERICSSON (PUBL) (Stockholm, SE)

1. A link adaptation method for a transmitter node configured for spatial multiplexing of signals into streams and for transmission of spatially multiplexed streams over one or more forward channels including a first forward channel, wherein each stream is intended for a receiver node, the method comprising: selecting a transmission pre-coding setting for at least one of the spatially multiplexed streams based on an acquired channel estimate of the first forward channel; based on the selected transmission pre-coding setting, estimating a forward channel disturbance component, wherein the forward channel disturbance component includes signal distortion for the first forward channel caused by at least one hardware component of the transmitter node and/or the receiver node; and performing link adaptation for at least one of the spatially multiplexed streams based on the selected transmission pre-coding setting and the estimated forward channel disturbance component, wherein estimating the forward channel disturbance component comprises estimating a disturbance covariance matrix based on the selected transmission pre-coding setting, the acquired channel estimate of the first forward channel, and a model of the signal distortion for the first forward channel.

2. The method of claim 1 , further comprising acquiring the channel estimate of the first forward channel by receiving a channel state estimate from the receiver node.

3. The method of claim 1 , further comprising acquiring the channel estimate of the first forward channel by performing measurements on signals received from the receiver node over a reverse channel to determine a channel estimate of the reverse channel and using the channel estimate of the reverse channel as channel estimate of the first forward channel.

4. The method of claim 1 , wherein performing link adaptation comprises: determining a signal-to-disturbance ratio for the first forward channel based on the selected transmission pre-coding setting, the acquired channel estimate of the first forward channel, a reception pre-coding setting of the receiver node, and the estimated forward channel disturbance component; and performing link adaptation based on the determined signal-to-disturbance ratio.

5. The method of claim 1 , wherein performing link adaptation comprises selecting a modulation and coding scheme for the at least one of the spatially multiplexed streams.

6. The method of claim 1 , wherein the signal distortion comprises one or more of: non-linear distortion of a power amplifier, non-linear distortion of a signal clipper, oscillator phase noise, non-linear distortion of a filter, and quantization noise of a digital-to-analog converter.

7. The method of claim 1 , wherein performing link adaptation comprises: determining a signal-to-disturbance ratio for the first forward channel based on one or more of: the selected transmission pre-coding setting, the acquired channel estimate of the first forward channel, a reception pre-coding setting of the receiver node, and the estimated forward channel disturbance component; and performing link adaptation based on the determined signal-to-disturbance ratio.

8. A computer program product comprising a non-transitory computer readable medium having a computer program comprising program instructions, the computer program being loadable into a data processing unit and configured to cause execution of the method of claim 1 when the computer program is run by the data processing unit.

9. A link adaptation apparatus for a transmitter node configured for spatial multiplexing of signals into streams and for transmission of spatially multiplexed streams over one or more forward channels including a first forward channel, wherein each stream is intended for a receiver node, the apparatus comprising controlling circuitry configured to cause: selection of a transmission pre-coding setting for at least one of the spatially multiplexed streams based on an acquired channel estimate of the first forward channel; estimation of a forward channel disturbance component based on the selected transmission pre-coding setting, wherein the forward channel disturbance component includes signal distortion for the first forward channel caused by at least one hardware component of the transmitter node and/or the receiver node; and performance of link adaptation for at least one of the spatially multiplexed streams based on the selected transmission pre-coding setting and the estimated forward channel disturbance component, wherein the controlling circuitry is configured to cause the estimation of the forward channel disturbance component by causing estimation of a disturbance covariance matrix based on the selected transmission pre-coding setting, the acquired channel estimate of the first forward channel, and a model of the signal distortion for the first forward channel.

10. The apparatus of claim 9 , wherein the controlling circuitry is further configured to cause acquisition of the channel estimate of the first forward channel by reception of a channel state estimate from the receiver node.

11. The apparatus of claim 9 , wherein the controlling circuitry is further configured to cause acquisition of the channel estimate of the first forward channel by performance of measurements on signals received from the receiver node over a reverse channel to determine a channel estimate of the reverse channel and use of the channel estimate of the reverse channel as channel estimate of the first forward channel.

12. The apparatus of claim 9 , wherein the controlling circuitry is configured to cause the performance of the link adaptation by causing: determination of a signal-to-disturbance ratio for the first forward channel based on the selected transmission pre-coding setting, the acquired channel estimate of the first forward channel, a reception pre-coding setting of the receiver node, and the estimated forward channel disturbance component; and performance of link adaptation based on the determined signal-to-disturbance ratio.

13. The apparatus of claim 9 , wherein the controlling circuitry is configured to cause the performance of the link adaptation by causing selection of a modulation and coding scheme for the at least one of the spatially multiplexed streams.

14. The apparatus of claim 9 , wherein the signal distortion comprises one or more of: non-linear distortion of a power amplifier, non-linear distortion of a signal clipper, oscillator phase noise, non-linear distortion of a filter, and quantization noise of a digital-to-analog converter.

15. The apparatus of claim 9 , wherein the controlling circuitry is configured to cause the performance of the link adaptation by causing: determination of a signal-to-disturbance ratio for the first forward channel based on one or more of: the selected transmission pre-coding setting, the acquired channel estimate of the first forward channel, a reception pre-coding setting of the receiver node, and the estimated forward channel disturbance component; and performance of link adaptation based on the determined signal-to-disturbance ratio.

16. A transmitter node, such as a base station or an access point, comprising the apparatus of claim 9 .

8644368 February 2014 Zhang
2013/0343290 December 2013 Ren et al.
2016/0365907 December 2016 Oyman
2018/0316367 November 2018 Johansson
2019/0089431 March 2019 Zhu et al.
2019/0326959 October 2019 Davydov
102523077 June 2012
2015/095844 June 2015
2020/126016 June 2020

International Search Report and Written Opinion dated Mar. 31, 2020 in International Application No. PCT/SE2019/050557 (12 pages total). cited by applicant
Jacobsson, Sven et al., “Massive MU-MIMO-OFDM Uplink with Hardware Impairments: Modeling and Analysis”, IEEE, Conference Proceedings Article, Jan. 8, 2019 (7 pages total). cited by applicant
Aghdam, Sina Rezaei, “Distortion-Aware Linear Precoding for Millimeter-Wave Multiuser MISO Downlink”, 2019 IEEE International Conference on Communications Workshops, ICC Workshops 2019 Proceedings, May 1, 2019 (6 pages total). cited by applicant
3GPP TS 22.011 V14.4.0, Dec. 2016, 3rd Generation Partnership Project; Technical Specification Group Services and System Aspects; Service accessibility (Release 14) (30 pages total). cited by applicant
Rico-Alvariño, A. et al., “Learning-Based Adaptive Transmission for Limited Feedback Multiuser MIMO-OFDM”, 1 IEEE Transactions on Wireless Communications, vol. 13, No. 7, Jul. 2014, XP011553200, 3806-3820 (15 pages). cited by applicant

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