Abstract
According to an aspect, there is provided a method of operating a network node in a communication network. The method comprises determining (121) a preferred configuration for one or more flexible subframes in a frame, the frame comprising one or more subframes allocated to uplink transmissions, one or more subframes allocated to downlink transmissions and one or more flexible subframes that can each be dynamically allocated to either uplink transmissions or downlink transmissions; and transmitting (125) a message to a neighbouring network node in the communication network through an inter node interface, the message indicating the preferred configuration for the one or more flexible subframes.
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Specification Information
Specification Information
Technologies
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Publication No | Technology | Declaration Information | Specification Information | Explicitly Disclosed | Patent Type | |||||
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Declaration Date | Declaration Reference | Declaring Company | Specification Information | |||||||
WO2015020589A1 | 4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | Yes | Basis Patent | ||||
WO2015020589A1 | 5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC | Yes | Basis Patent | ||||
CN105432033A | 4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | No | Family Member | ||||
CN105432033A | 5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC | No | Family Member | ||||
US2016113007A1 | 4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | No | Family Member | ||||
US2016113007A1 | 5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC | No | Family Member | ||||
EP3031151A1 | 4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | No | Family Member | ||||
EP3031151A1 | 5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC | No | Family Member | ||||
EP3031151B1 | 4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | No | Family Member | ||||
EP3031151B1 | 5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC | No | Family Member | ||||
DK3031151T3 | 4G | 05/05/2015 | ISLD-201504-006 | ERICSSON INC | No | Family Member | ||||
DK3031151T3 | 5G | 19/05/2017 | ISLD-201705-011 | ERICSSON INC | No | Family Member | ||||
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US10306625B2 | ----- | ----- | ----- | ----- | ----- | ----- | ----- |
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Technologies
Product
Use Cases
Services
Claim
1. A method of operating a network node in a communication network, the method comprising:
determining a preferred configuration for one or more flexible subframes in a frame, the frame comprising one or more subframes allocated to uplink transmissions, one or more subframes allocated to downlink transmissions and one or more flexible subframes that can each be dynamically allocated to either uplink transmissions or downlink transmissions; and
transmitting a message to a neighboring network node in the communication network through an inter node interface, the message indicating the preferred configuration for the one or more flexible subframes, wherein the message includes two information elements (IEs), with the first IE indicating which subframes in the frame are flexible subframes and the second IE indicating the uplink or downlink configuration for the indicated flexible subframes.
2. The method of claim 1, the method further comprising adopting the preferred configuration of the one or more flexible subframes after the message is sent to the neighboring network node and using the preferred configuration in communications with mobile devices.
3. The method of claim 1, the method further comprising:
receiving a message from the neighboring network node through the inter node interface indicating a preferred configuration of the neighboring network node for the one or more flexible subframes in the frame; and
determining the configuration of the one or more flexible subframes in the frame using the preferred configuration indicated in the received message and the preferred configuration of the network node.
4. The method of claim 3, the method further comprising using the determined configuration in communications with mobile devices once the configuration has been determined.
5. The method of claim 1, wherein the message indicating the preferred configuration for the one or more flexible subframes is sent via an X2 interface between the network nodes.
6. The method of claim 1, wherein the message indicating the preferred configuration for the one or more flexible subframes is included in a message that is used to transfer load and interference co-ordination information between network nodes.
7. The method of claim 6, wherein the message is a LOAD INFORMATION message.
8. The method of claim 1, wherein the first IE indicating which subframes in the frame are flexible subframes signals a different one of an uplink/downlink time division duplex (TDD) configuration to that contained in a Subframe Assignment IE, and wherein the subframes for which the different one of the uplink/downlink configuration differs with respect to the configuration contained in the Subframe Assignment IE are the flexible subframes.
9. The method of claim 1, where the message indicating the preferred configuration for the one or more flexible subframes further comprises information on the interference level experienced by the network node that transmits the message.
10. The method of claim 9, wherein information on the interference level is provided for each subframe and/or resource block.
11. The method of claim 10, wherein the information on the interference level is included in an information element (IE) in a LOAD INFORMATION message.
12. The method of claim 9, wherein the message is a LOAD INFORMATION message and comprises an UL Interference Overload Indication IE that provides interference levels experienced by the network node on a per resource block basis.
13. The method of claim 12, wherein the message further comprises information representing the level of interference experienced by the network node in the cell on a subframe and resource block basis.
14. The method of claim 1, the method further comprising:
receiving a message from the neighboring network node through the inter node interface, the message indicating information on the interference level experienced by the neighboring network node; and
determining the configuration of the one or more flexible subframes in the frame using the information on the interference level and the preferred configuration of the network node.
15. The method of claim 1, further comprising sending information to the neighboring network node on the traffic demand in the uplink to the network node and/or the downlink from the network node.
16. The method of claim 1, wherein the message indicating the preferred configuration for the one or more flexible subframes further comprises information on the transmission power that is going to be used in the frame and/or a maximum transmission power than can be used in the frame.
17. The method of claim 16, wherein the information on the actual and/or maximum transmission power is provided for particular subframes.
18. The method of claim 16, wherein the information on the actual and/or maximum transmission power is provided per physical resource block and/or per subframe in the frame.
19. The method of claim 16, wherein the information on the actual and/or maximum transmission power is included in a relative narrowband transmit power (RNTP) information element (IE) that is adapted to include information on time resources.
20. The method of claim 16, wherein the information on the actual and/or maximum transmission power is included in an information element (IE) in a LOAD INFORMATION message.
21. The method of claim 1, further comprising:
receiving a message from the neighboring network node through the inter node interface, the message indicating information on the transmission power that is going to be used in the frame and/or a maximum transmission power than can be used in the frame; and
determining the configuration of the one or more flexible subframes in the frame using the information on the transmission power and/or maximum transmission power and the preferred configuration of the network node.
22. The method of claim 1, wherein the communication network is a Long Term Evolution (LTE) time division duplex (TDD) network.
23. A non-transitory computer-readable medium having computer readable code embodied therein, the computer readable code being such that, on execution by a suitable computer or processor of a network node in a communication network, the computer or processor causes the network node to:
determine a preferred configuration for one or more flexible subframes in a frame, the frame comprising one or more subframes allocated to uplink transmissions, one or more subframes allocated to downlink transmissions and one or more flexible subframes that can each be dynamically allocated to either uplink transmissions or downlink transmissions; and
transmit a message to a neighboring network node in the communication network through an inter node interface, the message indicating the preferred configuration for the one or more flexible subframes, wherein the message includes two information elements (IEs), with the first IE indicating which subframes in the frame are flexible subframes and the second IE indicating the uplink or downlink configuration for the indicated flexible subframes.
24. A network node for use in a communication network, the network node comprising
inter node interface circuitry configured to send and receive messages to and from one or more neighboring network nodes, and
processing circuitry comprising a processor and memory storing instructions executable by said processor, wherein the processing circuit is configured to:
determine a preferred configuration for one or more flexible subframes in a frame, the frame comprising one or more subframes allocated to uplink transmissions, one or more subframes allocated to downlink transmissions and one or more flexible subframes that can each be dynamically allocated to either uplink transmissions or downlink transmissions and to form a message indicating the preferred configuration for the one or more flexible subframes, wherein the message includes two information elements (IEs), with the first IE indicating which subframes in the frame are flexible subframes and the second IE indicating the uplink or downlink configuration for the indicated flexible subframes; and
transmit the message to a neighboring network node in the communication network, via the inter node interface circuitry.
25. The network node of claim 24, wherein the processing circuitry is further configured to adopt the preferred configuration of the one or more flexible subframes after the message is sent to the neighboring network node and to use the preferred configuration in communications with mobile devices.
26. The network node of claim 24, wherein the processing circuitry is further configured to:
receive a message from the neighboring network node through the inter node interface indicating a preferred configuration of the neighboring network node for the one or more flexible subframes in the frame; and
determine the configuration of the one or more flexible subframes in the frame using the preferred configuration indicated in the received message and the preferred configuration of the network node.
27. The network node of claim 26, wherein the processing circuitry is further configured to use the determined configuration in communications with mobile devices once the configuration has been determined.
28. The network node of claim 24, wherein the processing circuitry is configured to send the message indicating the preferred configuration for the one or more flexible subframes via an X2 interface between the network nodes.
29. The network node of claim 24, wherein the processing circuitry is configured to indicate the preferred configuration for the one or more flexible subframes in a message that is used to transfer load and interference co-ordination information between network nodes.
30. The network node of claim 29, wherein the message is a LOAD INFORMATION message.
31. The network node of claim 24, wherein the processing circuitry is configured to use the first IE to signal a different one of an uplink/downlink time division duplex (TDD) configuration to that contained in a Subframe Assignment IE, and wherein the subframes for which the different one of the uplink/downlink configuration differs with respect to the configuration contained in the Subframe Assignment IE are the flexible subframes.
32. The network node of claim 24, where the processing circuitry is further configured to transmit the message indicating the preferred configuration for the one or more flexible subframes with information on the interference level experienced by the network node that transmits the message.
33. The network node of claim 32, wherein information on the interference level is provided for each subframe and/or resource block.
34. The network node of claim 33, wherein the processing circuitry is configured to include the information on the interference level in an information element (IE) in a LOAD INFORMATION message.
35. The network node of claim 32, wherein the message is a LOAD INFORMATION message and comprises an UL Interference Overload Indication IE that provides interference levels experienced by the network node on a per resource block basis.
36. The network node of claim 35, wherein the processing circuitry is configured to include in the message information representing the level of interference experienced by the network node in the cell on a subframe and resource block basis.
37. The network node of claim 32, wherein the processing circuitry is further configured to:
receive a message from the neighboring network node through the inter node interface circuitry, the message indicating information on the interference level experienced by the neighboring network node; and
determine the configuration of the one or more flexible subframes in the frame using the information on the interference level and the preferred configuration of the network node.
38. The network node of claim 24, wherein the processing circuitry is further configured to send information to the neighboring network node on the traffic demand in the uplink to the network node and/or the downlink from the network node.
39. The network node of claim 24, wherein the processing circuitry is further configured to include information on the transmission power that is going to be used in the frame and/or a maximum transmission power than can be used in the frame in the message.
40. The network node of claim 39, wherein the processing circuitry is configured to provide information on the actual and/or maximum transmission power for particular subframes.
41. The network node of claim 39, wherein the processing circuitry is configured to provide information on the actual and/or maximum transmission power per physical resource block and/or per subframe in the frame.
42. The network node of claim 39, wherein the processing circuitry is configured to include the information on the actual and/or maximum transmission power in a relative narrowband transmit power (RNTP) information element (IE) that is adapted to include information on time resources.
43. The network node of claim 38, wherein the processing circuitry is configured to include the information on the actual and/or maximum transmission power in an information element (IE) in a LOAD INFORMATION message.
44. The network node of claim 39, wherein the processing circuitry is further configured to:
receive a message from the neighboring network node through the inter node interface circuitry, the message indicating information on the transmission power that is going to be used in the frame and/or a maximum transmission power than can be used in the frame; and
determine the configuration of the one or more flexible subframes in the frame using the information on the transmission power and/or maximum transmission power and the preferred configuration of the network node.
45. The network node of claim 24, wherein the communication network is a Long Term Evolution (LTE) time division duplex (TDD) network.
46. A method of operating a network node in a communication network, the method comprising:
receiving a message from a neighboring network node in the communication network through an inter node interface, the message indicating a preferred configuration of the neighboring network node for one or more flexible subframes in a frame, the frame comprising one or more subframes allocated to uplink transmissions, one or more subframes allocated to downlink transmissions and one or more flexible subframes that can each be dynamically allocated to either uplink transmissions or downlink transmissions, wherein the message includes two information elements (IEs), with the first IE indicating which subframes in the frame are flexible subframes and the second IE indicating the uplink or downlink configuration for the indicated flexible subframes; and
determining the configuration of the one or more flexible subframes in the frame using the preferred configuration indicated in the received message.
47. The method of claim 46, the method further comprising the step of using the determined configuration in communications with mobile devices.
48. The method of claim 46, the method further comprising the step of determining a preferred configuration for the one or more flexible subframes in the frame, wherein the step of determining the configuration of the one or more flexible subframes comprises using the preferred configuration of the network node and the preferred configuration of the neighboring network node indicated in the received message.
49. The method of claim 46, wherein the message indicating the preferred configuration for the one or more flexible subframes is received via an X2 interface between the network nodes.
50. The method of claim 46, wherein the message indicating the preferred configuration for the one or more flexible subframes is included in a message that is used to transfer load and interference co-ordination information between network nodes.
51. The method of claim 50, wherein the message is a LOAD INFORMATION message.
52. The method of claim 46, wherein the first IE indicating which subframes in the frame are flexible subframes signals a different one of an uplink/downlink time division duplex (TDD) configuration to that contained in a Subframe Assignment IE, and wherein the subframes for which the different one of the uplink/downlink configuration differs with respect to the configuration contained in the Subframe Assignment IE are the flexible subframes.
53. The method of claim 46, where the message indicating the preferred configuration for the one or more flexible subframes further comprises information on the interference level experienced by the network node that transmits the message.
54. The method of claim 53, wherein information on the interference level is provided for each subframe and/or resource block.
55. The method of claim 54, wherein the information on the interference level is included in an information element (IE) in a LOAD INFORMATION message.
56. The method of claim 53, wherein the message is a LOAD INFORMATION message and comprises an UL Interference Overload Indication IE that provides interference levels experienced by the neighboring network node on a per resource block basis.
57. The method of claim 56, wherein the message further comprises information representing the level of interference experienced by the neighboring network node in the cell on a subframe and resource block basis.
58. The method of claim 53, wherein the step of determining the configuration of the one or more flexible subframes in the frame uses the preferred configuration indicated in the received message and the received information on the interference level.
59. The method of claim 46, the method further comprising the step of receiving information from the neighboring network node on the traffic demand in the uplink to the neighboring network node and/or the downlink from the neighboring network node.
60. The method of claim 46, wherein the received message indicating the preferred configuration of the neighboring network node for the one or more flexible subframes further comprises information on the transmission power that is going to be used in the frame and/or a maximum transmission power than can be used in the frame.
61. The method of claim 60, wherein the information on the actual and/or maximum transmission power is provided for particular subframes.
62. The method of claim 60, wherein the information on the actual and/or maximum transmission power is provided per physical resource block and/or per subframe in the frame.
63. The method of claim 60, wherein the information on the actual and/or maximum transmission power is included in a relative narrowband transmit power (RNTP) information element (IE) that is adapted to include information on time resources.
64. The method of claim 60, wherein the information on the actual and/or maximum transmission power is included in an information element (IE) in a LOAD INFORMATION message.
65. The method of claim 60 further comprising the step of determining the configuration of the one or more flexible subframes in the frame using the received information on the transmission power and/or maximum transmission power and the preferred configuration of the neighboring network node.
66. The method of claim 46, wherein the communication network is a Long Term Evolution (LTE) time division duplex (TDD) network.
67. A non-transitory computer-readable medium having computer readable code stored therein, the computer readable code being such that, on execution by a suitable computer or processor of a network node in a communication network, the computer or processor causes the network node to:
receive a message from a neighboring network node in the communication network through an inter node interface, the message indicating a preferred configuration of the neighboring network node for one or more flexible subframes in a frame, the frame comprising one or more subframes allocated to uplink transmissions, one or more subframes allocated to downlink transmissions and one or more flexible subframes that can each be dynamically allocated to either uplink transmissions or downlink transmissions, wherein the message includes two information elements (IEs), with the first IE indicating which subframes in the frame are flexible subframes and the second IE indicating the uplink or downlink configuration for the indicated flexible subframes; and
determine the configuration of the one or more flexible subframes in the frame using the preferred configuration indicated in the received message.
68. A network node for use in a communication network, the network node comprising
inter node interface circuitry configured to send and receive messages to and from one or more neighboring network nodes, and
processing circuitry comprising a processor and memory storing instructions executable by said processor, wherein the processing circuit is configured to:
receive a message from a neighboring network node in the communication network via the inter node interface circuitry, the message indicating a preferred configuration of the neighboring network node for one or more flexible subframes in a frame, the frame comprising one or more subframes allocated to uplink transmissions, one or more subframes allocated to downlink transmissions and one or more flexible subframes that can each be dynamically allocated to either uplink transmissions or downlink transmissions, wherein the message includes two information elements (IEs), with the first IE indicating which subframes in the frame are flexible subframes and the second IE indicating the uplink or downlink configuration for the indicated flexible subframes; and
determine the configuration of the one or more flexible subframes in the frame using the preferred configuration indicated in the received message.
69. The network node of claim 68, wherein the processing circuitry is further configured to use the determined configuration in communications with mobile devices.
70. The network node of claim 68, wherein the processing circuitry is further configured to determine a preferred configuration for the one or more flexible subframes in the frame, wherein the determination of the configuration of the one or more flexible subframes uses the preferred configuration of the network node and the preferred configuration of the neighboring network node indicated in the received message.
71. The network node of claim 68, wherein the message indicating the preferred configuration for the one or more flexible subframes is received via an X2 interface between the network nodes.
72. The network node of claim 68, wherein the message indicating the preferred configuration for the one or more flexible subframes is included in a message that is used to transfer load and interference co-ordination information between network nodes.
73. The network node of claim 72, wherein the message is a LOAD INFORMATION message.
74. The network node of claim 68, wherein the first IE indicating which subframes in the frame are flexible subframes signals a different one of an uplink/downlink time division duplex (TDD) configuration to that contained in a Subframe Assignment IE, and wherein the subframes for which the different one of the uplink/downlink configuration differs with respect to the configuration contained in the Subframe Assignment IE are the flexible subframes.
75. The network node of claim 68, where the message indicating the preferred configuration for the one or more flexible subframes further comprises information on the interference level experienced by the network node that transmits the message.
76. The network node of claim 75, wherein information on the interference level is provided for each subframe and/or resource block.
77. The network node of claim 76, wherein the information on the interference level is included in an information element (IE) in a LOAD INFORMATION message.
78. The network node of claim 75, wherein the message is a LOAD INFORMATION message and comprises an UL Interference Overload Indication IE that provides interference levels experienced by the neighboring network node on a per resource block basis.
79. The network node of claim 75, wherein the message further comprises information representing the level of interference experienced by the neighboring network node in the cell on a subframe and resource block basis.
80. The network node of claim 70, wherein the processing circuit is configured such that the determination of the configuration of the one or more flexible subframes in the frame uses the preferred configuration indicated in the received message and the received information on the interference level.
81. The network node of claim 68, wherein the processing circuitry is further configured to receive information from the neighboring network node on the traffic demand in the uplink to the neighboring network node and/or the downlink from the neighboring network node.
82. The network node of claim 68, wherein processing circuit is further configured to receive information on the transmission power that is going to be used in the frame and/or a maximum transmission power than can be used in the frame in the message.
83. The network node of claim 82, wherein processing circuit is configured to receive information on the actual and/or maximum transmission power for particular subframes.
84. The network node of claim 82, wherein processing circuit is configured to receive information on the actual and/or maximum transmission power per physical resource and/or per subframe block in the frame.
85. The network node of claim 82, wherein processing circuit is configured to receive the information on the actual and/or maximum transmission power in a relative narrowband transmit power (RNTP) information element (IE) that is adapted to include information on time resources.
86. The network node of claim 82, wherein processing circuit is configured to receive the information on the actual and/or maximum transmission power in an information element (IE) in a LOAD INFORMATION message.
87. The network node of claim 82, wherein the processing circuit is further configured to determine the configuration of the one or more flexible subframes in the frame using the received information on the transmission power and/or maximum transmission power and the preferred configuration of the neighboring network node.
88. The network node of claim 68, wherein the communication network is a Long Term Evolution (LTE) time division duplex (TDD) network.
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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.