Inter-small cell handover method, device, and system

US 10,219,194 B2
Filed: 04/28/2017
Issued: 02/26/2019
Est. Priority Date: 10/30/2014
Status: Active Grant

First Claim

Patent Images

1. An inter-small cell handover method, comprising:

performing, by a user equipment (UE), synchronous measurement, to determine a set of available small cells that are available for the UE, wherein the set of available small cells comprises at least one available small cell, wherein an available beam pair of each available small cell includes a high frequency beam of the UE and a high frequency beam of the available small cell;

sending, by the UE, the set of available small cells to a macro base station;

when the UE is in a coverage hole of a current serving small cell, receiving a first synchronization indication sent by the macro base station, wherein the first synchronization indication instructs the UE to perform synchronous measurement on the high frequency beam of the UE in each available beam pair;

performing, by the UE, synchronous measurement according to the first synchronization indication, to select an available target beam pair; and

handing over, by the UE, to a target small cell corresponding to the available target beam pair.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

The present application relates to the field of communications technologies, and provides an inter-small cell handover method, a device, and a system. When UE is in a coverage hole of a serving small cell, the UE needs to perform synchronous measurement only on each available beam pair in a set of available small cells determined by the UE, thereby reducing a delay of re-accessing a high frequency network by the UE, and improving QoS of receiving a high frequency service by the UE. the present application includes: performing, by UE, synchronous measurement, to determine a set of small cells available for the UE; sending the set of available small cells to a macro base station; when the UE is in a coverage hole of a current serving small cell, receiving, by the UE, a first synchronization indication sent by the macro base station.

10 Citations

22 Claims

1. An inter-small cell handover method, comprising:
- performing, by a user equipment (UE), synchronous measurement, to determine a set of available small cells that are available for the UE, wherein the set of available small cells comprises at least one available small cell, wherein an available beam pair of each available small cell includes a high frequency beam of the UE and a high frequency beam of the available small cell;
  
  sending, by the UE, the set of available small cells to a macro base station;
  
  when the UE is in a coverage hole of a current serving small cell, receiving a first synchronization indication sent by the macro base station, wherein the first synchronization indication instructs the UE to perform synchronous measurement on the high frequency beam of the UE in each available beam pair;
  
  performing, by the UE, synchronous measurement according to the first synchronization indication, to select an available target beam pair; and
  
  handing over, by the UE, to a target small cell corresponding to the available target beam pair.
- View Dependent Claims (2, 3, 4)
- - 2. The inter-small cell handover method according to claim 1, wherein the performing, by the UE, the synchronous measurement, to determine the set of available small cells comprises:
    - sending, by the UE, a synchronous measurement request to the macro base station, so that the macro base station instructs each small cell in a coverage area of the macro base station to send synchronization pilot signals to the UE;
      
      separately receiving, by the UE on each high frequency beam of the UE, the synchronization pilot signal sent by each of the small cells on each high frequency beam of the small cells;
      
      separately measuring, by the UE, a signal strength of each synchronization pilot signal, and sorting the signal strengths in descending order; and
      
      determining, by the UE, a small cell sending a synchronization pilot signal having a highest signal strength as a serving small cell of the UE; and
      
      determining at least one small cell sending a synchronization pilot signal having a second highest signal strength as an available small cell in the set of available small cells that are available for the UE.
  - 3. The inter-small cell handover method according to claim 1, wherein the performing, by the UE, the synchronous measurement according to the first synchronization indication, to select the available target beam pair comprises:
    - measuring, by the UE, a signal strength of a synchronization pilot signal on the high frequency beam of the UE in each available beam pair; and
      
      if the signal strength corresponding to the synchronization pilot signal having the highest signal strength is greater than or equal to a preset threshold, selecting, as the available target beam pair, a beam pair consisting of a high frequency beam, of the UE, on which the synchronization pilot signal having the highest signal strength is received and a high frequency beam of an available small cell sending the synchronization pilot signal having the highest signal strength.
  - 4. The inter-small cell handover method according to claim 1, wherein the method further comprises:
    - sending, by the UE, a handover result to the macro base station, so that the macro base station instructs, according to the handover result, to perform data transmission between the target small cell and the UE by using the available target beam pair, and instructs the serving small cell to terminate data transmission with the UE, wherein the handover result comprises the available target beam pair and a cell identifier of the target small cell; and
      
      receiving a data transmission indication sent by the macro base station, to perform data transmission with the target small cell by using the available target beam pair, wherein the data transmission indication instructs to perform data transmission between the target small cell and the UE by using the available target beam pair.

5. An inter-small cell handover method, comprising:
- receiving, by a macro base station from a user equipment (UE), a set of available small cells that are available for the UE, wherein the set of available small cells comprises at least one available small cell, wherein an available beam pair of each available small cell includes a high frequency beam of the UE and a high frequency beam of the available small cell;
  
  receiving, by the macro base station, a coverage hole status indication sent by a current serving small cell of the UE, wherein the coverage hole status indication indicates whether the UE is in a coverage hole of the current serving small cell; and
  
  when the UE is in the coverage hole of the current serving small cell, sending, by the macro base station, a first synchronization indication to the UE, and separately sending a second synchronization indication to each available small cell in the set of available small cells, so that the UE performs synchronous measurement according to the first synchronization indication, selects an available target beam pair, and hands over from the current serving small cell of the UE to a target small cell corresponding to the available target beam pair, wherein the first synchronization indication instructs the UE to perform synchronous measurement on the high frequency beam of the UE in each available beam pair, and the second synchronization indication instructs the available small cell to send a synchronization pilot signal to the UE on the high frequency beam in the available beam pair of the available small cell.
- View Dependent Claims (6, 7)
- - 6. The inter-small cell handover method according to claim 5, wherein the method further comprises:
    - receiving, by the macro base station, a handover result sent by the UE, wherein the handover result comprises the available target beam pair and a cell identifier of the target small cell corresponding to the available target beam pair; and
      
      instructing, by the macro base station according to the handover result, to perform data transmission between the target small cell and the UE by using the available target beam pair, and instructing the serving small cell to terminate data transmission with the UE.
  - 7. The inter-small cell handover method according to claim 6, wherein before the instructing, by the macro base station according to the handover result, to perform data transmission between the target small cell and the UE by using the available target beam pair, the method further comprises:
    - grouping, by the macro base station into one group, an available small cell that is in the set of available small cells and that is in a same coverage area of the macro base station; and
      
      after receiving a coverage hole status indication sent by the serving small cell of the UE, separately sending, by the macro base station in a multicast form to each group of available small cells, data that the UE requests to transmit.

8. An inter-small cell handover method, comprising:
- sending a first synchronization pilot signal to a user equipment (UE), by an available small cell, so that the UE measures the synchronization pilot signal, and determines an available small cell of the UE and an available beam pair of the available small cell, wherein the available beam pair includes a high frequency beam of the available small cell and a high frequency beam of the UE;
  
  receiving, by the available small cell, a synchronization indication sent by a macro base station, wherein the synchronization indication instructs the available small cell to send a synchronization pilot signal to the UE on the high frequency beam in the available beam pair of the available small cell;
  
  sending, by the available small cell, a second synchronization pilot signal to the UE according to the synchronization indication, so that the UE performs synchronous measurement on the high frequency beam of the UE in the available beam pair, determines an available target beam pair, and hands over from a current serving small cell of the UE to a target small cell corresponding to the available target beam pair; and
  
  receiving, by the available small cell, a data transmission indication sent by the macro base station, to perform data transmission with the UE by using the available target beam pair.
- View Dependent Claims (9, 10, 11)
- - 9. The inter-small cell handover method according to claim 8, wherein before the receiving, by the available small cell, the data transmission indication sent by the macro base station, the method further comprises:
    - receiving, by the available small cell, data that is sent by the macro base station in a multicast form and that the UE requests to transmit.
  - 10. The inter-small cell handover method according to claim 8, wherein the method further comprises:
    - determining whether the UE is in a coverage hole of the current serving small cell;
      
      sending a coverage hole status indication to the macro base station, wherein the coverage hole status indication indicates whether the UE is in the coverage hole of the small cell; and
      
      when the UE is in the coverage hole of the current serving small cell, receiving, by the current serving small cell, indication information sent by the macro base station, to terminate data transmission with the UE.
  - 11. The inter-small cell handover method according to claim 10, wherein the step of determining whether the UE is in a coverage hole of the small cell comprises:
    - if it is continuously determined at least twice that an uplink of the UE is incorrectly demodulated, determining that the UE is in the coverage hole of the current serving small cell;
      
      orif a received reference signal received power RSRP or reference signal received quality RSRQ sent by the UE is less than a preset threshold, determining that the UE is in the coverage hole of the current serving small cell;
      
      orif a response message of the UE is not received continuously at least twice after a request message is sent to the UE, determining that the UE is in the coverage hole of the small cell.

12. A user equipment (UE), comprising:
- a memory storing instructions; and
  
  a processor configured to execute the instruction to cause the UE to;
  
  perform synchronous measurement, to determine a set of available small cells that are available for the UE, wherein the set of available small cells comprises at least one available small cell, wherein an available beam pair of each available small cell includes a high frequency beam of the UE and a high frequency beam of the available small cell;
  
  send the set of available small cells to a macro base station;
  
  when the UE is in a coverage hole of a current serving small cell, receive a first synchronization indication sent by the macro base station, wherein the first synchronization indication instructs the UE to perform synchronous measurement on the high frequency beam of the UE in each available beam pair;
  
  perform synchronous measurement according to the first synchronization indication, to select an available target beam pair; and
  
  hand over to a target small cell corresponding to the available target beam pair.
- View Dependent Claims (13, 14, 15)
- - 13. The user equipment according to claim 12, wherein the processor is further configured to execute the instructions to cause the UE to:
    - send a synchronous measurement request to the macro base station, so that the macro base station instructs each of the small cells in a coverage area of the macro base station to send synchronization pilot signals to the UE;
      
      receive, on each high frequency beam of the UE, the synchronization pilot signal sent by each of the small cells on each high frequency beam of the small cells;
      
      measure a signal strength of each synchronization pilot signal, and sort the signal strengths in descending order; and
      
      determine a small cell sending a synchronization pilot signal having a highest signal strength as a serving small cell of the UE; and
      
      determine at least one small cell sending a synchronization pilot signal having a second highest signal strength as an available small cell in the set of available small cells that are available for the UE.
  - 14. The user equipment according to claim 12, wherein the processor is further configured to execute the instructions to cause the UE to:
    - measure a signal strength of a synchronization pilot signal on the high frequency beam of the UE in each available beam pair; and
      
      if the signal strength corresponding to the synchronization pilot signal having the highest signal strength is greater than or equal to a preset threshold, select, as the available target beam pair, a beam pair consisting of a high frequency beam, of the UE, on which the synchronization pilot signal having the highest signal strength is received and a high frequency beam of an available small cell sending the synchronization pilot signal having the highest signal strength.
  - 15. The user equipment according to claim 12, wherein the processor is further configured to execute the instructions to cause the UE to:
    - send a handover result to the macro base station, so that the macro base station instructs, according to the handover result, to perform data transmission between the target small cell and the UE by using the available target beam pair, and instructs the serving small cell to terminate data transmission with the UE, wherein the handover result comprises the available target beam pair and a cell identifier of the target small cell, whereinreceive a data transmission indication sent by the macro base station, to perform data transmission with the target small cell by using the available target beam pair, wherein the data transmission indication instructs to perform data transmission between the target small cell and the UE by using the available target beam pair.

16. A macro base station, comprising:
- a memory storing instructions; and
  
  a processor configured to execute the instruction to cause the macro base station to;
  
  receive a set of available small cells sent by a user equipment (UE), wherein the set of available small cells comprises at least one available small cell, and an available beam pair of each available small cell includes a high frequency beam of the UE and a high frequency beam of the available small cell; and
  
  receive a coverage hole status indication sent by a serving small cell of the UE, wherein the coverage hole status indication indicates whether the UE is in a coverage hole of the serving small cell; and
  
  when the UE is in the coverage hole of the current serving small cell, send a first synchronization indication to the UE, and separately send a second synchronization indication to each available small cell in the set of available small cells, so that the UE performs synchronous measurement according to the first synchronization indication, selects an available target beam pair, and hands over from the current serving small cell of the UE to a target small cell corresponding to the available target beam pair, wherein the first synchronization indication instructs the UE to perform synchronous measurement on the high frequency beam of the UE in each available beam pair, and the second synchronization indication instructs the available small cell to send a synchronization pilot signal to the UE on the high frequency beam in the available beam pair of the available small cell.
- View Dependent Claims (17, 18)
- - 17. The macro base station according to claim 16, wherein the processor is further configured to execute the instructions to cause the macro base station to:
    - receive a handover result sent by the UE, wherein the handover result comprises the available target beam pair and a cell identifier of the target small cell corresponding to the available target beam pair; and
      
      perform data transmission between the target small cell and the UE by using the available target beam pair, and instruct the serving small cell to terminate data transmission with the UE.
  - 18. The macro base station according to claim 16, wherein the processor is further configured to execute the instructions to cause the macro base station to:
    - perform data transmission between the target small cell and the UE by using the available target beam pair, group, into one group, an available small cell that is in the set of available small cells and that is in a same coverage area of the macro base station, whereinafter the macro base station receives a coverage hole status indication sent by the serving small cell of the UE, separately send, in a multicast form to each group of available small cells, data that the UE requests to transmit.

19. A small cell, comprising:
- a memory storing instructions; and
  
  a processor configured to execute the instruction to cause the small cell to;
  
  send a first synchronization pilot signal to a user equipment (UE), so that the UE measures the synchronization pilot signal, and determines an available small cell of the UE and an available beam pair of the available small cell, wherein the available beam pair consists of a high frequency beam of the available small cell and a high frequency beam of the UE;
  
  receive a synchronization indication sent by a macro base station, wherein the synchronization indication instructs the available small cell to send a synchronization pilot signal to the UE on the high frequency beam in the available beam pair of the available small cell, whereinsend a second synchronization pilot signal to the UE according to the synchronization indication, so that the UE performs synchronous measurement on the high frequency beam of the UE in the available beam pair, determines an available target beam pair, and hands over from a current serving small cell of the UE to a target small cell corresponding to the available target beam pair; and
  
  receive a data transmission indication sent by the macro base station; and
  
  perform data transmission with the UE by using the available target beam pair.
- View Dependent Claims (20, 21, 22)
- - 20. The small cell according to claim 19, wherein the processor is further configured to execute the instructions to cause the small cell to:
    - receive data that is sent by the macro base station in a multicast form and that the UE requests to transmit.
  - 21. The small cell according to claim 19, wherein the processor is further configured to execute the instructions to cause the small cell to:
    - determine whether the UE is in a coverage hole of the current serving small cell, whereinsend a coverage hole status indication to the macro base station, wherein the coverage hole status indication indicates whether the UE is in the coverage hole of the small cell; and
      
      when the UE is in the coverage hole of the current serving small cell, receive, by the small cell, indication information sent by the macro base station, to terminate data transmission with the UE.
  - 22. The small cell according to claim 21, wherein the processor is further configured to execute the instructions to cause the small cell to:
    - if it is continuously determined at least twice that an uplink of the UE is incorrectly demodulated, determine that the UE is in the coverage hole of the current serving small cell;
      
      orif a received reference signal received power RSRP or reference signal received quality RSRQ sent by the UE is less than a preset threshold, determine that the UE is in the coverage hole of the current serving small cell;
      
      orif a response message of the UE is not received continuously at least twice after a request message is sent to the UE, determine that the UE is in the coverage hole of the small cell.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Huawei Technologies Co., Ltd. (Huawei Investment & Holding Co., Ltd.)
Original Assignee
Huawei Technologies Co., Ltd. (Huawei Investment & Holding Co., Ltd.)
Inventors
Jiang, Guangjian, Cheng, Jingjing, Huang, Lei
Primary Examiner(s)
Butt, Walli Z

Application Number

US15/582,345
Publication Number

US 20170238222A1
Time in Patent Office

669 Days
Field of Search
US Class Current
CPC Class Codes

H04B 7/0617   for beam forming

H04B 7/0695   using beam selection

H04L 5/0048   Allocation of pilot signals...

H04W 16/18   Network planning tools

H04W 24/10   Scheduling measurement repo...

H04W 36/0061   of neighbour cell information

H04W 36/08   Reselecting an access point

H04W 36/16   Performing reselection for ...

H04W 36/30   by measured or perceived co...

H04W 56/001   Synchronization between nodes

H04W 76/10   Connection setup

H04W 84/045   using private Base Stations...

Inter-small cell handover method, device, and system

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

10 Citations

22 Claims

Specification

Solutions

Use Cases

Quick Links

Inter-small cell handover method, device, and system

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

10 Citations

22 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links