Multiple CQI Feedback for Cellular Networks

Abstract

Single user and multiuser MIMO transmission in a cellular network may be performed by a base station (eNB) transmitting either one or two transmission layers. A user equipment (UE) receives a reference symbol from the base station. The UE processes the reference symbol with one or more of a plurality of preceding matrices to form a plurality of channel quality indices (CQI). The UE provides feedback to the eNB comprising one or more feedback CQI selected from the plurality of CQI and one or more preceding matrix indicators (PMI) identifying the one or more preceding matrices used to form each of the one or more feedback CQIs wherein at least two PMI are included in the feedback.

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Patent Type

Technology	Declaration Information			Specification Information	Explicitly Disclosed	Patent Type
Technology	Declaration Date	Declaration Reference	Declaring Company	Specification Number	Explicitly Disclosed	Patent Type
Not Available	21/03/2012	ISLD-201203-017	TEXAS INSTRUMENTS INC	S1 TS Number: Not Available Version No: Illustrative part: ---- Release: + -	No	Family Member
4G	15/10/2015	ISLD-201509-009	TEXAS INSTRUMENTS INC	S1 TS Number: TS 136 213 Version No: Illustrative part: ---- Release: + -	Yes	Family Member

Specification Information

Spec Number

Version Number

Section Number

Specification Information

Spec Number

Version Number

Section Number

Technologies

2G 3G 4G 5G

Family Information

All Granted Patents In Patent Family :	----
All Pending Patents In Patent Family :	----

SEP Database Augmented SEP Database

Explicitly Disclosed

Patent Type

Publication No	Technology	Declaration Information			Specification Information	Explicitly Disclosed	Patent Type
Publication No	Technology	Declaration Date	Declaration Reference	Declaring Company	Specification Number	Explicitly Disclosed	Patent Type
US2010322176A1	Not Available	21/03/2012	ISLD-201203-017	TEXAS INSTRUMENTS INC	S1 TS Number: Not Available Version No: ---- Section No: ---- Release : ---- + -	Yes	Basis Patent
US2010322176A1	4G	15/10/2015	ISLD-201509-009	TEXAS INSTRUMENTS INC	S1 TS Number: TS 136 213 Version No: ---- Section No: ---- Release : ---- + -	Yes	Basis Patent
US8711716B2	Not Available	21/03/2012	ISLD-201203-017	TEXAS INSTRUMENTS INC	S1 TS Number: Not Available Version No: ---- Section No: ---- Release : ---- + -	Yes	Basis Patent
US8711716B2	4G	15/10/2015	ISLD-201509-009	TEXAS INSTRUMENTS INC	S1 TS Number: TS 136 213 Version No: ---- Section No: ---- Release : ---- + -	Yes	Basis Patent
US2014233498A1	Not Available	21/03/2012	ISLD-201203-017	TEXAS INSTRUMENTS INC	S1 TS Number: Not Available Version No: ---- Section No: ---- Release : ---- + -	No	Family Member
US2014233498A1	4G	15/10/2015	ISLD-201509-009	TEXAS INSTRUMENTS INC	S1 TS Number: TS 136 213 Version No: ---- Section No: ---- Release : ---- + -	Yes	Family Member

Publication No	Technology	Declaration Information			Specification Information				Explicitly Disclosed	Patent Type	Status	National Phase Entries
Publication No	Technology	Declaration Date	Declaration Reference	Declaring Company	Specification Information				Explicitly Disclosed	Patent Type	Status	National Phase Entries
-----	-----	-----	-----	-----	S1 TS Number: ----- Version No: ----- Section No:----- Release:----- + -				-----	-----	-----	-----

Technologies

Channel Status Information(CSI) Reporting

Product

Not Available

Use Cases

Wireless communication

Services

Not Available

Claim

1. A method of operating a user equipment device in a cellular network, the method comprising:
receiving a first reference symbol at the user equipment (UE) from a first base station (eNB);
processing by the UE the first reference symbol with one or more of a plurality of precoding matrices to form a plurality of channel quality indices (CQI), wherein the plurality of CQI is representative of all precoding matrices assigned to the UE, and wherein the entire plurality of CQI and respective precoding matrix indicators are provided as feedback; and
providing feedback from the UE to the eNB comprising one or more feedback CQI selected from the plurality of CQI and one or more precoding matrix indicators (PMI) identifying the one or more precoding matrices used to form each of the one or more feedback CQIs, wherein at least two PMI are included in the feedback, wherein each combination of precoding matrices comprise of at least a first precoding matrix recommended for the UE, and a second precoding matrix recommended for a hypothetical UE to be co-scheduled with the UE.
2. The method of claim 1, wherein the plurality of CQI is representative of all precoding matrices assigned to the UE, and wherein the entire plurality of CQI and respective precoding matrix indicators are provided as feedback.
3. The method of claim 2, wherein the received feedback comprises combinations of PMI selected by the UE that have a lower correlation between each combination of precoding matrices.
4. The method of claim 2, wherein the received feedback comprises combinations of PMI selected by the UE that have a larger distance between each combination of precoding matrices.
5. The method of claim 3, wherein only combinations having a correlation below a selected threshold are received as feedback.
6. The method of claim 1, further comprising receiving a second reference symbol from a second eNB coincidently with receiving the first reference symbol (RS);
wherein the processing comprises forming one or more CQI for each of the first RS and the second RS using one or more of a portion of the plurality of precoding matrices; and
wherein feedback comprise one or more feedback CQI and PMI selected for the first RS and one or more feedback CQI and PMI selected for the second RS.
7. The method of claim 1, wherein the UE is a mobile handset.
8. The method of claim 1, further comprising the first base station receiving feedback from a second UE comprising one or more feedback CQI selected by the second UE from a plurality of CQI formed by the second UE and one or more precoding matrix indicators (PMI) identifying the one or more preceding matrices used by the second UE to form each of the one or more feedback CQIs, wherein at least two PMI are included in the feedback, wherein each combination of preceding matrices comprise of at least a first preceding matrix recommended for the second UE, and a second preceding matrix recommended for a hypothetical UE to be co-scheduled with the UE; and
wherein the eNB uses the feedback from the UB and the second UE to select preceding matrices for use by the eNB for co-scheduled transmission of data to the UE and to the second LIE in multi-user multi-input multi-output (MU-MIMO) mode.
9. A base station apparatus, comprising:
circuitry for transmitting a reference symbol from the base station (eNB) for reception by a user equipment (UE);
circuitry for receiving feedback from the UE comprising one or more feedback CQI selected by the UE from a plurality of CQI formed by the UE and one or more precoding matrix indicators (PMI) identifying the one or more precoding matrices used by the UE to form each of the one or more feedback CQIs, wherein at least two PMI are included in the feedback and, wherein each of the plurality of CQI is formed using a different combination of two or more of the plurality of precoding matrices, the feedback comprises two or more PMI identifying the combination of precoding matrices used to form each of the one or more feedback CQI, and each combination of precoding matrices comprise of at least a first precoding matrix recommended for the UE, and a second precoding matrix recommended for a hypothetical UE to be co-scheduled with the UE; and
a processor coupled to the circuitry for transmitting and to the circuitry for receiving, the processor operable to use the at least two PMI in the feedback to select a precoding matrix for use by the eNB for transmission of data to the UE, and wherein the processor is operable to use the feedback from the UE to select precoding matrices for use by the eNB for co-scheduled transmission of data to the UE and to a second UE in multi-user multi-input multi-output (MU MIMO) mode.
10. The apparatus of claim 9, wherein the processor is operable to use the feedback comprising two or more PMI from the UE and from the second UE to select precoding matrices for use by the eNB for co-scheduled transmission of data to the UE and to the second UE in MU-MIMO mode.
11. A user equipment apparatus, comprising:
circuitry for receiving a first reference symbol from a first base station (eNB);
circuitry for processing the first reference symbol with one or more of a plurality of precoding matrices to form a plurality of channel quality indices (CQI), wherein each of the plurality of CQI is formed using a combination of two or more of the plurality of precoding matrices; and
circuitry for providing feedback to the eNB comprising one or more feedback CQI selected from the plurality of CQI and one or more precoding matrix indicators (PMI) identifying the one or more precoding matrices used to form each of the one or more feedback CQIs, wherein at least two PMI are included in the feedback, wherein the feedback comprises two or more PMI identifying the combination of precoding matrices used to form each of the one or more feedback CQI.
12. The apparatus of claim 11, wherein the plurality of CQI is representative of all precoding matrices assigned to the UE, and wherein the entire plurality of CQI and respective precoding matrix indicators are provided as feedback.
13. The apparatus of claim 11, wherein each combination of precoding matrices comprise of at least a first precoding matrix recommended for the UE, and a second precoding matrix recommended for a hypothetical U to be co-scheduled with the UE.
14. The apparatus of claim 11, further comprising circuitry for calculating a correlation between each combination of precoding matrices and selecting for feedback only combinations having a lower correlation.
15. The apparatus of claim 14, wherein only combinations having a correlation below a selected threshold are selected for feedback.
16. The apparatus of claim 11, further comprising circuitry for calculating a distance between each combination of precoding matrices and selecting for feedback only combinations having a larger distance.
17. The apparatus of claim 11, further comprising circuitry for receiving a second reference symbol from a second eNB coincidently with receiving the first reference symbol (RS);
wherein the processing comprises forming one or more CQI for each of the first RS and the second RS using one or more of a portion of the plurality of precoding matrices; and
wherein feedback comprise one or more feedback CQI and PMI selected for the first RS and one or more feedback CQI and PMI selected for the second RS.
18. The apparatus of claim 11, wherein the UE is a mobile handset.
19. A method of operating a user equipment device in a cellular network, the method comprising:
receiving a first reference symbol at the user equipment (UE) from a first base station (eNB);
processing by the UE the first reference symbol with one or more of a plurality of precoding matrices to form a plurality of channel quality indices (CQI), wherein each of the plurality of CQI is formed using a combination of two or more of the plurality of precoding matrices; and
providing feedback from the UE to the eNB comprising one or more feedback CQI selected from the plurality of CQI and one or more precoding matrix indicators (PMI) identifying the one or more precoding matrices used to form each of the one or more feedback CQIs, wherein at least two PMI are included in the feedback, wherein the feedback comprises two or more PMI identifying the combination of precoding matrices used to form each of the one or more feedback CQI.
20. The method of claim 19, wherein each combination of precoding matrices comprise of at least a first precoding matrix recommended for the UE, and a second precoding matrix recommended for a hypothetical UE to be co-scheduled with the UE.
21. The method of claim 20, wherein only combinations having a correlation below a selected threshold are selected for feedback.
22. The method of claim 19, further comprising calculating a correlation between each combination of precoding matrices and selecting for feedback only combinations having a lower correlation.
23. The method of claim 19, further comprising calculating a distance between each combination of precoding matrices and selecting for feedback only combinations having a larger distance.
24. A method for operating a base station device in a cellular network, the method comprising:
transmitting a reference symbol from the base station (eNB) for reception by a user equipment (UE);
receiving feedback from the UE comprising one or more feedback CQI selected by the UE from a plurality of CQI formed by the UE and one or more precoding matrix indicators (PMI) identifying the one or more preceding matrices used by the UE to form each of the one or more feedback CQIs, wherein at least two PMI are included in the feedback, wherein each of the plurality of CQI is formed using a combination of two or more of the plurality of precoding matrices; and
using the at least two PMI included in the feedback to select a precoding matrix for use by the eNB for transmission of data to the UE, wherein the feedback comprises two or more PMI identifying the combination of precoding matrices used to form each of the one or more feedback CQI.
25. The method of claim 24, wherein the plurality of CQI is representative of all precoding matrices assigned to the UE, and wherein the entire plurality of CQI and respective precoding matrix indicators are received as feedback.

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The information in blue was extracted from the third parties (Standard Setting Organisation, Espacenet)

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Explicitly disclosed patent:openly and comprehensibly describes all details of the invention in the patent document.

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