Method and arrangement in a radio-access network

US 9,755,803 B2
Filed: 01/27/2014
Issued: 09/05/2017
Est. Priority Date: 02/26/2010
Status: Active Grant

First Claim

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1. A method, comprising:

transmitting, by a network node to an intermediate node in a radio-access network, a subframe having a defined frequency bandwidth and time length and comprising a first time portion and a second time portion following the first time portion, wherein transmitting the subframe comprisestransmitting a user equipment (UE) control region in the first time portion at a beginning of the subframe;

transmitting, in a time-frequency region comprised within the second time portion and within a first frequency bandwidth portion that is part of and smaller than the defined frequency bandwidth, first control information including downlink related information in a first part of the time-frequency region followed in time by second control information including uplink related information in a second part of the time-frequency region; and

transmitting data payload in time portions within the second time portion also carrying the first and second control information and within a second frequency bandwidth portion that is different from the first frequency bandwidth portion carrying the first and second control information.

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Abstract

The invention relates to a method and arrangement for transmitting and receiving control information in a radio-access network. A network node transmits first control information in a first part and second control information in a second part of a time-frequency region that is transmitted after a control region in a subframe. The second part is located later in the subframe than the first part. The second control information may be less time-critical than the first control information. An intermediate node receives and decodes the first control information at the end of the first part. When the first control information indicates that the subframe comprises data payload to the intermediate node, the intermediate node receives and decodes the data payload. The intermediate node receives second control information at the end of the second part.

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34 Claims

1. A method, comprising:
- transmitting, by a network node to an intermediate node in a radio-access network, a subframe having a defined frequency bandwidth and time length and comprising a first time portion and a second time portion following the first time portion, wherein transmitting the subframe comprisestransmitting a user equipment (UE) control region in the first time portion at a beginning of the subframe;
  
  transmitting, in a time-frequency region comprised within the second time portion and within a first frequency bandwidth portion that is part of and smaller than the defined frequency bandwidth, first control information including downlink related information in a first part of the time-frequency region followed in time by second control information including uplink related information in a second part of the time-frequency region; and
  
  transmitting data payload in time portions within the second time portion also carrying the first and second control information and within a second frequency bandwidth portion that is different from the first frequency bandwidth portion carrying the first and second control information.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 2. A method according to claim 1, wherein said downlink related information is scheduling assignments.
  - 3. A method according to claim 1, wherein said uplink related information is scheduling grants.
  - 4. A method according to claim 1, wherein said uplink related information is transmitted in said first part if all available resources in said first part have not been used for downlink related information.
  - 5. A method according to claim 1, wherein said first control information concerns data that is transmitted in the subframe.
  - 6. A method according to claim 1, wherein said second control information concerns uplink transmission of data to be comprised in another subframe.
  - 7. A method according to claim 1, wherein said first control information is needed prior to decoding of the data payload in the subframe.
  - 8. A method according to claim 1, wherein a split in time between the first and second parts of the time-frequency region is fixed.
  - 9. A method according to claim 1, wherein a split in time between the first and second parts of the time-frequency region is adaptable or configurable.
  - 10. A method according to claim 1, wherein said first part comprises a first set of orthogonal frequency division multiplexing (OFDM) symbols subsequent to a reserved set of OFDM symbols used for the UE control region and said second part comprises a second set of OFDM symbols that are subsequent to the first set of OFDM symbols.
  - 11. A method according to claim 1, wherein a frequency resource used for transmitting the first and second control information by said network node is also used for the control signalling to user equipments by said intermediate node.
  - 12. A method according to claim 1, wherein said time-frequency region is a time-frequency region used for transmitting control channels defined for relay operation.
  - 13. A method according to claim 12, wherein said control channels are Relay Physical Downlink Control Channels (R-PDCCHs) and said first and second control information is signalled in the R-PDCCHs.
  - 14. A method according to claim 1, wherein said first and second control information is transmitted during a silent period when user equipments connected to said intermediate node do not expect any transmissions from the intermediate node.
  - 15. A method according to claim 14, wherein the silent period follows after a control signalling part in a Multicast/Broadcast over Single Frequency Network (MBSFN) subframe.
  - 16. A method according to claim 1, wherein a subframe structure is time aligned in cells controlled by said network node and cells controlled by said intermediate node.
  - 17. A method according to claim 1, wherein said network node is a donor eNB and said intermediate node is a relay node wirelessly connected to the radio-access network via a donor cell controlled by the donor eNB.
  - 18. A method according to claim 1, wherein the second part of the time-frequency region carrying the second control information extends until an end of the subframe and the first part of the time-frequency region carrying the first control information begins either directly after the UE control region or spaced apart in time from the UE control region.

19. A network node, comprising:
- a transceiver configured to transmit, to an intermediate node in a radio-access network, a subframe having a defined frequency bandwidth and time length and comprising a first time portion and a second time portion following the first time portion; and
  
  a processor connected to the transceiver and configured to generate the subframe by including a user equipment (UE) control region in the first time portion at a beginning of the subframe;
  
  first and second control information in a time-frequency region comprised within the second time portion and within a first frequency bandwidth portion that is part of and smaller than the defined frequency bandwidth, the first control information being comprised in a first part of the time-frequency region followed in time by the second control information in a second part of the time-frequency region, wherein said first control information includes downlink related information and said second control information includes uplink related information; and
  
  data payload in time portions within the second time portion also carrying the first and second control information and within a second frequency bandwidth portion that is different from the first frequency bandwidth portion carrying the first and second control information.
- View Dependent Claims (20, 21, 22, 23, 24, 25, 26)
- - 20. A network node according to claim 19, wherein said downlink related information is scheduling assignments.
  - 21. A network node according to claim 19, wherein said uplink related information is scheduling grants.
  - 22. A network node according to claim 19, wherein said time-frequency region is a time-frequency region used for transmitting control channels defined for relay operation.
  - 23. A network node according to claim 19, wherein said network node is a donor eNB and said intermediate node is a relay node wirelessly connected to the radio-access network via a donor cell controlled by the donor eNB.
  - 24. A network node according to claim 19, wherein said network node and said intermediate node are relay nodes wirelessly connected to the radio-access network via a donor cell controlled by a donor eNB.
  - 25. A network node according to claim 19, wherein said intermediate node is a user equipment wirelessly connected to the radio-access network via a donor cell controlled by a donor eNB.
  - 26. A network node according to claim 19, wherein the second part of the time-frequency region carrying the second control information extends until an end of the subframe and the first part of the time-frequency region carrying the first control information begins either directly after the UE control region or spaced apart in time from the UE control region.

27. A method, comprising:
- receiving, by an intermediate node from a network node in a radio-access network, a subframe having a defined frequency bandwidth and time length and comprising a first time portion and a second time portion following the first time portion, wherein receiving the subframe comprisesreceiving a user equipment (UE) control region in the first time portion at a beginning of the subframe;
  
  receiving, in a first part of a time-frequency region comprised within the second time portion and within a first frequency bandwidth portion that is part of and smaller than the defined frequency bandwidth, first control information including downlink related information;
  
  decoding the first control information, wherein the decoding starts at or after an end in time of the first part of the time-frequency region;
  
  when said first control information indicates data payload to the intermediate node in the subframe, receiving and decoding the data payload; and
  
  receiving, in a second part of the time-frequency region comprised within the second time portion and within the first frequency bandwidth portion that is part of and smaller than the defined frequency bandwidth, second control information including uplink related information, wherein the second part of the time-frequency region follows in time the first part of the time-frequency region,wherein the data payload is received in time portions within the second time portion also carrying the first and second control information and within a second frequency bandwidth portion that is different from the first frequency bandwidth portion carrying the first and second control information.
- View Dependent Claims (28, 29, 30, 31)
- - 28. A method according to claim 27, the method further comprising the steps of:
    - decoding the second control information, wherein the decoding starts at or after an end in time of the second part of the time-frequency region in the subframe; and
      
      when said second control information indicates an uplink transmission opportunity for the intermediate node, transmitting data in another subframe.
  - 29. A method according to claim 27, wherein said downlink related information is scheduling assignments.
  - 30. A method according to claim 27, wherein said uplink related information is scheduling grants.
  - 31. A method according to claim 27, wherein the second part of the time-frequency region carrying the second control information extends until an end of the subframe and the first part of the time-frequency region carrying the first control information begins either directly after the UE control region or spaced apart in time from the UE control region.

32. An intermediate node configured to receive, from a network node in a radio-access network, a subframe having a defined frequency bandwidth and time length and comprising a first time portion and a second time portion following the first time portion, wherein to receive the subframe the intermediate node comprises:
- a transceiver configured to receive a user equipment (UE) control region in the first time portion at a beginning of the subframe;
  
  first control information including downlink related information in a first part of a time-frequency region comprised within the second time portion and within a first frequency bandwidth portion that is part of and smaller than the defined frequency bandwidth;
  
  second control information including uplink related information in a second part of the time-frequency region comprised within the second time portion and within the first frequency bandwidth portion that is part of and smaller than the defined frequency bandwidth, the second part of the time-frequency region following in time the first part of the time-frequency region;
  
  when said first control information indicates the subframe comprises data payload to the intermediate node, a data payload in time portions within the second time portion also carrying the first and second control information and within a second frequency bandwidth portion that is different from the first frequency bandwidth portion carrying the first and second control information; and
  
  a processor connected to said transceiver and configured to control transmission and reception by said transceiver, the processor further configured to decode the first control information at or after an end in time of the first part of the time-frequency region, the processor further configured to, when said first control information indicates the data payload to the intermediate node in the subframe, decode the data payload.
- View Dependent Claims (33, 34)
- - 33. An intermediate node according to claim 32, wherein the processor is further configured to decode the second control information at or after an end in time of the second part of the time-frequency region, and wherein the transceiver is further configured to, when the second control information indicates an uplink transmission opportunity for the intermediate node, transmit data in another subframe.
  - 34. A intermediate node according to claim 32, wherein the second part of the time-frequency region carrying the second control information extends until an end of the subframe and the first part of the time-frequency region carrying the first control information begins either directly after the UE control region or spaced apart in time from the UE control region.

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Current Assignee
Telefonaktiebolaget LM Ericsson
Original Assignee
Telefonaktiebolaget LM Ericsson
Inventors
Parkvall, Stefan
Primary Examiner(s)
Thier, Michael
Assistant Examiner(s)
COX, BRIAN P

Application Number

US14/164,685
Publication Number

US 20140140262A1
Time in Patent Office

1,317 Days
Field of Search
US Class Current
CPC Class Codes

H04L 5/0007   the frequencies being ortho...

H04L 5/0053   Allocation of signaling, i....

H04W 72/0446   Resources in time domain, e...

H04W 88/08   Access point devices

Method and arrangement in a radio-access network

First Claim

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Abstract

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34 Claims

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Method and arrangement in a radio-access network

First Claim

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Abstract

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34 Claims

Specification

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