Abstract
A method and radio node ( 500) for enabling higher-order modulation in a radio communication with a first UE (502). A first table configuration comprises at least one of a first Modulation and Coding Scheme MCS table and a first Channel Quality Indicator CQI table which tables support a certain maximum modulation order. When the radio node (500) detects that a modulation order higher than the maximum modulation order of the first table configuration is potentially possible to use in the radio communication the radio node (500) instructs the first UE (502) to apply a second table configuration which comprises at least one of a second MCS table and a second CQI table which second tables support the higher modulation order. At least one entry for at least one modulation order in the tables of the first table configuration is maintained in the tables of the second table configuration as a fall-back in case it is desirable to use the at least one modulation order of the first table configuration when the second table configuration is applied. Thereby a higher data rate can be achieved in the radio communication.
Technology | Declaration Information | Specification Information | Explicitly Disclosed | Patent Type | |||||
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Declaration Date | Declaration Reference | Declaring Company | Specification Information | ||||||
4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | No | Family Member | ||||
5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC |
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WO2015020587A1 | 4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | Yes | Basis Patent | ||||
WO2015020587A1 | 5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC |
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US2015381310A1 | 4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | No | Family Member | ||||
US2015381310A1 | 5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC |
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No | Family Member | |||
CN105453468A | 4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | No | Family Member | ||||
CN105453468A | 5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC |
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No | Family Member | |||
EP3031153A1 | 4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | No | Family Member | ||||
EP3031153A1 | 5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC |
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No | Family Member | |||
JP2016535521A | 4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | No | Family Member | ||||
JP2016535521A | 5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC |
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No | Family Member | |||
JP6133510B2 | 4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | No | Family Member | ||||
JP6133510B2 | 5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC |
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No | Family Member | |||
US2017078045A1 | 4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | No | Family Member | ||||
US2017078045A1 | 5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC |
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No | Family Member | |||
US9831982B2 | 4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | No | Family Member | ||||
US9831982B2 | 5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC |
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No | Family Member | |||
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Technologies
Product
Use Cases
Services
Claim
1. A method performed by a radio node of a cellular network, the radio node being operable to apply a first table configuration in radio communications with User Equipments (UEs), the first table configuration comprising at least one of a first Modulation and Coding Scheme (MCS) table and a first Channel Quality Indicator (CQI) table, wherein the at least one of the first MCS table and the first CQI table support a certain maximum modulation order, the method comprising:
detecting that a higher modulation order, which is higher than the maximum modulation order of the first table configuration, is potentially possible to use in a radio communication between the radio node and a first UE; and
instructing the first UE to apply a second table configuration in the radio communication, the second table configuration comprising at least one of a second MCS table and a second CQI table,
wherein the at least one of the second MCS table and the second CQI table support the higher modulation order,
wherein at least one entry for at least one modulation order in the at least one of the first MCS table and the first CQI table is maintained in the at least one of the second MCS table and the second CQI table as a fallback in case it is desirable to use the at least one modulation order in the at least one of the first MCS table and the first CQI table when the second table configuration is applied; and
wherein the at least one modulation order in the at least one of the first MCS table and the first CQI table comprises a lowest modulation order of the first table configuration, and
wherein the first entry for the lowest modulation order in the first MCS table is maintained in the second MCS table as the fallback, and an entry for the lowest coding rate of the lowest modulation order in the first CQI table is maintained in the second CQI table as the fallback.
2. The method of claim 1, wherein the radio node instructs the first UE to apply the second table configuration in the radio communication between the radio node and the first UE when a performance related parameter of signals communicated between the radio node and the first UE is above a threshold.
3. The method of claim 2, wherein the performance related parameter comprises a Signal to Interference and Noise Ratio.
4. The method of claim 2, wherein the radio node instructs a second UE to apply the first table configuration in a radio communication between the radio node and the second UE when the performance related parameter of signals communicated between the radio node and the second UE is below the threshold.
5. The method of claim 4, wherein the radio nod e instructs the second UE by sending an instruction to the second UE to apply the first table configuration or by not sending an instruction to the second UE to apply the second table configuration.
6. The method of claim 1, wherein the at least one of the second MCS table and the second CQI table is a modification of the at least one of the first MCS table and the first CQI table, respectively, where a set of entries have been added for the higher modulation order and a set of entries for the at least one modulation order in the at least one of the first MCS table and the first CQI table have been removed.
7. The method of claim 6, wherein the number of added entries for the higher modulation order and the number of removed entries for the at least one modulation order in the at least one of the first MCS table and the first CQI table are equal such that the first and second MCS tables are of equal size and/or the first and second CQI tables are of equal size.
8. The method, of claim 1, wherein the at least one of the second MCS table and the second CQI table is a modification of the at least one of the first MCS table and the first CQI table, respectively, where all entries of the at least one of the first MCS table and the first CQI table have been maintained in the at least one of the second MCS table and the second CQI table and a set of entries for the higher modulation order have been added.
9. The method of claim 1, wherein the first and second table configurations further comprise a Transport Block Size table corresponding to the first and second MCS tables, respectively.
10. The method of claim 1, wherein selecting the fallback for a transmission indicates use of the first table configuration for a next transmission.
11. A radio node of a cellular network, the radio node being operable to apply a first table configuration in radio communications with User Equipments (UEs), the first table configuration comprising at least one of a first Modulation and Coding Scheme (MCS) table and a first Channel Quality Indicator (CQI) table, wherein the at least one of the first MCS table and the first CQI table support a certain maximum modulation order, the radio node comprising:
one or more processing circuits configured to function as:
a logic circuit configured to detect that a higher modulation order, which is higher than the maximum modulation order of the first table configuration, is potentially possible to use in a radio communication between the radio node and a first UE;
an instructing circuit configured to instruct the first UE to apply a second table configuration in the radio communication, the second table configuration comprising at least one of a second MCS table and a second CQI table;
wherein the at least one of the second MCS table and the second CQI table support the higher modulation order,
wherein at least one entry for at least one modulation order in the at least one of the first MCS table and the first CQI table is maintained in the at least one of the second MCS table and the second CQI table as a fallback in case it is desirable to use the at least one modulation order in the at least one of the first MCS table and the first CQI table when the second table configuration is applied,
wherein the at least one modulation order in the at least one of the first MCS table and the first CQI table comprises a lowest modulation order of the first table configuration, and
wherein the first entry for the lowest modulation order in the first MCS table is maintained in the second MCS table as the fallback, and an entry for the lowest coding rate of the lowest modulation order in the first CQI table is maintained in the second CQI table as the fallback.
12. The radio node of claim 11, wherein the radio node is configured to instruct the first UE to apply the second table configuration in the radio communication between the radio node and the first UE when a performance related parameter of signals communicated between the radio node and the first UE is above a threshold.
13. The radio node of claim 12, wherein the performance related parameter comprises a Signal to Interference and Noise Ratio.
14. The radio node of claim 12, wherein the radio node is configured to instruct a second UE to apply the first table configuration in a radio communication between the radio node and the second UE when the performance related parameter of signals communicated between the radio node and the second UE is below the threshold.
15. The radio node of claim 14, wherein the radio node is configured to instruct the second UE by sending an instruction to the second UE to apply the first table configuration, or by not sending an instruction to the second UE to apply the second table configuration.
16. The radio node of claim 11, wherein the at least one of the second MCS table and the second CQI table is a modification of the at least one of the first MCS table and the first CQI table, respectively, where a set of entries have been added for the higher modulation order and a set of entries for the at least one modulation order in the at least one of the first MCS table and the first CQI table have been removed.
17. The radio node of claim 16, wherein the number of added entries for the higher modulation order and the number of removed entries for the at least one modulation order in the at least one of the first MCS table and the first CQI table are equal such that the first and second MCS tables are of equal size and/or the first and second CQI tables are of equal size.
18. The radio node of claim 11, wherein the at least one of the second MCS table and the second CQI table is a modification of the at least one of the first MCS table and the first CQI table, respectively, where all entries of the at least one of the first MCS table and the first CQI table have been maintained in the at least one of the second MCS table and the second CQI table and a set of entries for the higher modulation order have been added.
19. The radio node of claim 11, wherein the first and second table configurations further comprise a Transport Block Size table corresponding to the first and second MCS tables, respectively.
20. The radio node of claim 11, wherein selecting the fallback for a transmission indicates use of the first table configuration for a next transmission.
21. A method performed by a User Equipment (UE), the UE being operable to apply a first table configuration in a radio communication with a radio node of a cellular network, the first table configuration comprising at least one of a first Modulation and Coding Scheme (MCS) table and a first Channel Quality Indicator (CQI) table, wherein the at least one of the first MCS table and the first CQI table support a certain maximum modulation order, the method comprising:
receiving an instruction from the radio node to apply a second table configuration in the radio communication, the second table configuration comprising at least one of a second MCS table and a second CQI table, wherein the at least one of the second MCS table and the second CQI table support a higher modulation order which is higher than the maximum modulation order of the first table configuration;
applying the second table configuration in the radio communication with the radio node,
wherein at least one entry for at least one modulation order in the at least one of the first MCS table and the first CQI table is maintained in the at least one of the second MCS table and the second CQI table as a fallback in case it is desirable to use the at least one modulation order in the at least one of the first MCS table and the first CQI table when the second table configuration is applied,
wherein the at least one modulation order in the at least one of the first MCS table and the first CQI table comprises a lowest modulation order of the first table configuration, and
wherein the first entry for the lowest modulation order in the first MCS table is maintained in the second MCS table as the fallback, and an entry for the lowest coding rate of the lowest modulation order in the first CQI table is maintained in the second CQI table as the fallback.
22. The method of claim 21, wherein selecting the fallback for a transmission indicates use of the first table configuration for a next transmission.
23. A User Equipment (UE), the UE being operable to apply a first table configuration in a radio communication with a radio node of a cellular network, the first table configuration comprising at least one of a first Modulation and Coding Scheme (MCS) table and a first Channel Quality Indicator (CQI) table, wherein the at least one of the first MCS table and the first CQI table support a certain maximum modulation order, the UE comprising:
one or more processing circuits configured to function as:
a communication circuit configured to receive an instruction from the radio node to apply a second table configuration in the radio communication, the second table configuration comprising at least one of a second MCS table and a second CQI table, wherein the at least one of the second MCS table and the second CQI table support a higher modulation order which is higher than the maximum modulation order of the first table configuration; and
a logic circuit configured to apply the second table configuration in the radio communication with the radio node,
wherein at least one entry for at least one modulation order in the at least one of the first MCS table and the first CQI table is maintained in the at least one of the second MCS table and the second CQI table as a fallback in case it is desirable to use the at least one modulation order in the at least one of the first MCS table and the first CQI table when the second table configuration is applied,
wherein the at least one modulation order in the at least one of the first MCS table and the first CQI table comprises a lowest modulation order of the first table configuration, and
wherein the first entry for the lowest modulation order in the first MCS table is maintained in the second MCS table as the fallback, and an entry for the lowest coding rate of the lowest modulation order in the first CQI table is maintained in the second CQI table as the fallback.
24. The UE of claim 23, wherein selecting the fallback for a transmission indicates use of the first table configuration for a next transmission.
25. A computer program product stored in a non-transitory computer readable medium for controlling a radio node of a cellular network, the radio node being operable to apply a first table configuration in radio communications with User Equipments (UEs), the first table configuration comprising at least one of a first Modulation and Coding Scheme (MCS) table and a first Channel Quality Indicator (CQI) table, wherein the at least one of the first MCS table and the first CQI table support a certain maximum modulation order, the computer program product comprising software instructions which, when run on one or more processing circuits of the radio node, causes the radio node to:
detect that a higher modulation order, which is higher than the maximum modulation order of the first table configuration, is potentially possible to use in a radio communication between the radio node and a first UE; and
instruct the first UE to apply a second table configuration in the radio communication, the second table configuration comprising at least one of a second MCS table and a second CQI table,
wherein the at least one of the second MCS table and the second CQI table support the higher modulation order,
wherein at least one entry for at least one modulation order in the at least one of the first MCS table and the first CQI table is maintained in the at least one of the second MCS table and the second CQI table as a fallback in case it is desirable to use the at least one modulation order in the at least one of the first MCS table and the first CQI table when the second table configuration is applied,
wherein the at least one modulation order in the at least one of the first MCS table and the first CQI table comprises a lowest modulation order of the first table configuration, and
wherein the first entry for the lowest modulation order in the first MCS table is maintained in the second MCS table as the fallback and an entry for the lowest coding rate of the lowest modulation order in the first CQI table is maintained in the second CQI table as the fallback.
26. The computer program product of claim 25, wherein selecting the fallback for a transmission indicates use of the first table configuration for a next transmission.
27. A computer program product stored in a non-transitory computer readable medium for controlling a User Equipment (UE), the UE being operable to apply a first table configuration in a radio communication with a radio node of a cellular network, the first table configuration comprising at least one of a first Modulation and Coding Scheme (MCS) table and a first Channel Quality Indicator (CQI) table, wherein the at least one of the first MCS table and the first CQI table support a certain maximum modulation order, the computer program product comprising software instructions which, when run on one or more processing circuits of the UE, causes the UE to:
receive an instruction from the radio node to apply a second table configuration in the radio communication, the second table configuration comprising at least one of a second MCS table and a second CQI table, wherein the at least one of the second MCS table and the second CQI table support a higher modulation order which is higher than the maximum modulation order of the first table configuration; and
apply the second table configuration in the radio communication with the radio node,
wherein at least one entry for at least one modulation order in the at least one of the first MCS table and the first CQI table is maintained in the at least one of the second MCS table and the second CQI table as a fallback in case it is desirable to use the at least one modulation order in the at least one of the first MCS table and the first CQI table when the second table configuration is applied,
wherein the at least one modulation order in the at least one of the first MCS table and the first CQI table comprises a lowest modulation order of the first table configuration, and
wherein the first entry for the lowest modulation order in the first MCS table is maintained in the second MCS table as the fallback, and an entry for the lowest coding rate of the lowest modulation order in the first CQI table is maintained in the second CQI table as the fallback.
28. The computer program product of claim 27, wherein selecting the fallback for a transmission indicates use of the first table configuration for a next transmission.
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The information in blue was extracted from the third parties (Standard Setting Organisation, Espacenet)
The information in grey was provided by the patent holder
The information in purple was extracted from the FrandAvenue
Explicitly disclosed patent:openly and comprehensibly describes all details of the invention in the patent document.
Implicitly disclosed patent:does not explicitly state certain aspects of the invention, but still allows for these to be inferred from the information provided.
Basis patent:The core patent in a family, outlining the fundamental invention from which related patents or applications originate.
Family member:related patents or applications that share a common priority or original filing.