HARQ TIMING SCHEME FOR SIGNLE-CARRIER UPLINK CONTROL INFORMATION WITH INTER-SITE CARRIER AGGREGATION

US 20140153535A1
Filed: 08/31/2011
Published: 06/05/2014
Est. Priority Date: 08/31/2011
Status: Active Grant

First Claim

Patent Images

1. An apparatus comprising:

at least one processor; and

at least one memory including computer program code,in which the at least one memory and the computer program code are configured, with the at least one processor, to cause the apparatus at least to;

determine a pattern for downlink almost blank subframes for a first network node operating in a first component carrier; and

for a user equipment operating with the first network node on the first component carrier and also with a second network node on the second component carrier, at least one of;

scheduling the user equipment on the first component carrier such that no uplink control information from the user equipment is scheduled for any uplink subframe in the first component carrier which maps from any of the almost blank subframes; and

scheduling the user equipment on the second component carrier such that uplink control information from the user equipment is scheduled only for an uplink subframe in the second component carrier which maps from any of the almost blank subframes.

View all claims

3 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

There is a pattern for downlink almost blank sub frames ABSFs for a first network node (e.g., macro eNB) operating in a first component carrier (e.g., PCell). For a user equipment UE operating with the first network node on the first component carrier and also with a second network node on the second component carrier, then either or both of the following are imposed. The UE is scheduled on the first component carrier such that no uplinic control information UCI from the UE is scheduled for any uplink subframe in the first component carrier which maps from any of the ABSFs; and the UE is scheduled on the second component carrier such that UCI from the UE is scheduled only for an uplinic subframe in the second component carrier which maps from any of the ABSFs. By example, the UCI includes either/or ACKs and NACKs corresponding to data sent downlink to the UE.

23 Citations

View as Search Results

20 Claims

1. An apparatus comprising:
- at least one processor; and
  
  at least one memory including computer program code,in which the at least one memory and the computer program code are configured, with the at least one processor, to cause the apparatus at least to;
  
  determine a pattern for downlink almost blank subframes for a first network node operating in a first component carrier; and
  
  for a user equipment operating with the first network node on the first component carrier and also with a second network node on the second component carrier, at least one of;
  
  scheduling the user equipment on the first component carrier such that no uplink control information from the user equipment is scheduled for any uplink subframe in the first component carrier which maps from any of the almost blank subframes; and
  
  scheduling the user equipment on the second component carrier such that uplink control information from the user equipment is scheduled only for an uplink subframe in the second component carrier which maps from any of the almost blank subframes.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The apparatus according to claim 1, in which:
    - the pattern for the downlink almost blank subframes is on the first component carrier;
      
      each n^thdownlink almost blank subframe maps to a (n+x)^thuplink subframe, in which x is a positive integer; and
      
      the uplink control information comprises at least one of an acknowledgement and a negative acknowledgement corresponding to data sent downlink to the user equipment.
  - 3. The apparatus according to claim 1, in which determining the pattern comprises sharing the pattern established by the first network node among the first network node and the second network node over a control interface.
  - 4. The apparatus according to claim 1, in which the at least one of scheduling is conditional on the user equipment operating with single-carrier transmission of uplink control information.
  - 5. The apparatus according to claim 1, in which the apparatus comprises the first network node which is a macro eNodeB;
    - the first component carrier comprises a primary cell for the user equipment;
      
      the second network node is a pico eNodeB or a femto eNodeB; and
      
      the second component carrier comprises a secondary cell for the user equipment.
  - 6. The apparatus according to claim 5, in which the at least one of scheduling is restricting scheduling of the user equipment on the first component carrier such that no uplink control information from the user equipment is scheduled for any uplink subframe in the first component carrier which maps from any of the almost blank subframes;
7. The apparatus according to claim 1, in which the apparatus comprises the second network node which is a pico eNodeB or a femto eNodeB;
- the second component carrier comprises a secondary cell for the user equipment;
  
  the first network node is a macro eNodeB; and
  
  the first component carrier comprises a primary cell for the user equipment.
8. The apparatus according to claim 7, in which the at least one of scheduling is restricting scheduling of the user equipment on the second component carrier such that uplink control information from the user equipment is scheduled only for an uplink subframe in the second component carrier which maps from any of the almost blank subframes;
- in which the at least one memory and the computer program code are configured with the at least one processor to cause the apparatus further to;
  
  receive from the first network node the pattern for downlink almost blank subframes from which the first network node restricts scheduling of the user equipment on the first component carrier such that no uplink control information from the user equipment is scheduled for any uplink subframe in the first component carrier which maps from any of the almost blank subframes.

9. A method comprising:
- determining a pattern for downlink almost blank subframes for a first network node operating in a first component carrier; and
  
  for a user equipment operating with the first network node on the first component carrier and also with a second network node on the second component carrier, at least one of;
  
  scheduling the user equipment on the first component carrier such that no uplink control information from the user equipment is scheduled for any uplink subframe in the first component carrier which maps from any of the almost blank subframes; and
  
  scheduling the user equipment on the second component carrier such that uplink control information from the user equipment is scheduled only for an uplink subframe in the second component carrier which maps from any of the almost blank subframes.
- View Dependent Claims (10, 11, 12, 13)
- - 10. The method according to claim 9, in which:
    - the pattern for the downlink almost blank subframes is on the first component carrier;
      
      each n^thdownlink almost blank subframe maps to a (n+x)^thuplink subframe, in which x is a positive integer; and
      
      the uplink control information comprises at least one of acknowledgements and negative acknowledgements corresponding to data sent downlink to the user equipment.
  - 11. The method according to claim 9, in which method is executed by the first network node which is a macro eNodeB;
    - the first component carrier comprises a primary cell for the user equipment;
      
      the second network node is a pico eNodeB or a femto eNodeB; and
      
      the second component carrier comprises a secondary cell for the user equipment.
  - 12. The method according to claim 11, in which the at least one of scheduling is restricting scheduling of the user equipment on the first component carrier such that no uplink control information from the user equipment is scheduled for any uplink subframe in the first component carrier which maps from any of the almost blank subframes;
    - in which the method further comprises;
      
      providing to the second network node the pattern for downlink almost blank subframes so as to enable the second network node to restrict scheduling of the user equipment on the second component carrier such that uplink control information from the user equipment is scheduled only for an uplink subframe in the second component carrier which maps from any of the almost blank subframes.
  - 13. The method according to any claim 9, in which the method is executed by the second network node which is a pico eNodeB or a femto eNodeB;
    - the second component carrier comprises a secondary cell for the user equipment;
      
      the first network node is a macro eNodeB;
      
      the first component carrier comprises a primary cell for the user equipment; and
      
      the at least one of scheduling is restricting scheduling of the user equipment on the second component carrier such that uplink control information from the user equipment is scheduled only for an uplink subframe in the second component carrier which maps from any of the almost blank subframes.

14. A computer program product comprising a computer-readable medium bearing computer program code embodied therein for use with a computer, the computer program code comprising:
- code for determining a pattern for downlink almost blank subframes for a first network node operating in a first component carrier; and
  
  for a user equipment operating with the first network node on the first component carrier and also with a second network node on the second component carrier, at least one of;
  
  code for scheduling the user equipment on the first component carrier such that no uplink control information from the user equipment is scheduled for any uplink subframe in the first component carrier which maps from any of the almost blank subframes; and
  
  code for scheduling the user equipment on the second component carrier such that uplink control information from the user equipment is scheduled only for an uplink subframe in the second component carrier which maps from any of the almost blank subframes.

15. An apparatus comprising:
- at least one processor; and
  
  at least one memory containing computer program code,in which the at least one memory and the computer program code are configured, with the at least one processor, to cause the apparatus at least to;
  
  establish communications with a first network node on a first component carrier and also with a second network node on a second component carrier;
  
  receive scheduling from the first network node on the first component carrier and map uplink control information therefrom such that no uplink control information is scheduled for any uplink subframe in the first component carrier which maps from any of the almost blank subframes of the first network node on the first component carrier; and
  
  receive scheduling from the second network node on the second component carrier and map uplink control information therefrom such that uplink control information is scheduled only for an uplink subframe in the second component carrier which maps from any of the almost blank subframes on the first component carrier.
- View Dependent Claims (16, 17)
- - 16. The apparatus according to claim 15, in which.each n^thdownlink almost blank subframe maps to a (n+x)^thuplink subframe, in which x is a positive integer;
    - and
17. The apparatus according to claim 15, in which the apparatus comprises a user equipment operating with single-carrier transmission of uplink control information.

18. A method comprising:
- establishing communications with a first network node on a first component carrier and also with a second network node on a second component carrier;
  
  receiving scheduling from the first network node on the first component carrier and mapping uplink control information therefrom such that no uplink control information is scheduled for any uplink subframe in the first component carrier which maps from any of the almost blank subframes of the first network node on the first component carrier; and
  
  receiving scheduling from the second network node on the second component carrier and mapping uplink control information therefrom such that uplink control information is scheduled only for an uplink subframe in the second component carrier which maps from any of the almost blank subframes on the first component carrier.
- View Dependent Claims (19)
- - 19. The method according to claim 18, in whicheach n^thdownlink almost blank subframe maps to a (n+x)^thuplink subframe, in which x is a positive integer;
    - andthe uplink control information comprises at least one of an acknowledgement and a negative acknowledgement corresponding to downlink data.

20. A computer program product comprising a computer-readable medium bearing computer program code embodied therein for use with a computer, the computer program code comprising:
- code for establishing communications with a first network node on a first component carrier and also with a second network node on a second component carrier;
  
  code for receiving scheduling from the first network node on the first component carrier and mapping uplink control information therefrom such that no uplink control information is scheduled for any uplink subframe in the first component carrier which maps from any of the almost blank subframes of the first network node on the first component carrier; and
  
  code for receiving scheduling from the second network node on the second component carrier and mapping uplink control information therefrom such that uplink control information is scheduled only for an uplink subframe in the second component carrier which maps from any of the almost blank subframes on the first component carrier.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Beijing Xiaomi Mobile Software Co., Ltd. (Xiaomi Corp.)
Original Assignee
Nokia Corporation
Inventors
Lei, Haipeng, Shu, Kodo

Granted Patent

US 9,288,823 B2
Time in Patent Office

Days
Field of Search
US Class Current

370/329
CPC Class Codes

H04L 1/1861   Physical mapping arrangemen...

H04L 5/001   the frequencies being arran...

H04L 5/0055   Physical resource allocatio...

H04L 5/0073   Allocation arrangements tha...

H04W 72/12   Wireless traffic scheduling

H04W 74/04   Scheduled access hybrid acc...

HARQ TIMING SCHEME FOR SIGNLE-CARRIER UPLINK CONTROL INFORMATION WITH INTER-SITE CARRIER AGGREGATION

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

23 Citations

20 Claims

Specification

Solutions

Use Cases

Quick Links

HARQ TIMING SCHEME FOR SIGNLE-CARRIER UPLINK CONTROL INFORMATION WITH INTER-SITE CARRIER AGGREGATION

First Claim

3 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

23 Citations

20 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links