Wireless communication system using multiple-serving nodes

US 10,321,436 B2
Filed: 05/08/2015
Issued: 06/11/2019
Est. Priority Date: 04/13/2010
Status: Active Grant

First Claim

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1. A method of communication in a Long Term Evolution (LTE) wireless communication system, the method comprising:

receiving, by a wireless device, a first physical downlink control channel (PDCCH) and a first physical hybrid automatic repeat request indicator channel (PHICH) from a first serving node while also receiving a second PDCCH and a second PHICH from a second serving node geographically positioned separately from the first node, wherein the first and second serving nodes are each configured to schedule transmissions with the wireless device without coordinating with one another such that uplink and downlink transmissions between the first serving node and the wireless device are scheduled independently from uplink and downlink transmissions between the second serving node and the wireless device;

receiving, by the wireless device, a downlink (DL) data signal in a physical downlink shared channel (PDSCH) transmitted from the first serving node, wherein the first PDCCH, the first PHICH, and the PDSCH are multiplexed to be transmitted from the first serving node;

transmitting, by the wireless device, a first physical uplink control channel (PUCCH) to the first serving node while also transmitting a second PUCCH to the second serving node; and

transmitting, by the wireless device, an uplink (UL) data signal in a physical uplink shared channel (PUSCH) transmitted to the second serving node, wherein the second PUCCH and the PUSCH are multiplexed to be transmitted to the second serving node.

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Abstract

Methods, devices and systems for a wireless communication system using multiple-serving nodes are provided. In one embodiment, a method of wireless communication comprises sending from a wireless device an uplink control signal to a first node via a second node using a second communication link; receiving by said wireless device a downlink control signal from said first node using a first communication link; sending from said wireless device another uplink control signal to said second node using said second communication link; and receiving by said wireless device another downlink control signal from said second node via said first node using said first communication link.

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17 Claims

1. A method of communication in a Long Term Evolution (LTE) wireless communication system, the method comprising:
- receiving, by a wireless device, a first physical downlink control channel (PDCCH) and a first physical hybrid automatic repeat request indicator channel (PHICH) from a first serving node while also receiving a second PDCCH and a second PHICH from a second serving node geographically positioned separately from the first node, wherein the first and second serving nodes are each configured to schedule transmissions with the wireless device without coordinating with one another such that uplink and downlink transmissions between the first serving node and the wireless device are scheduled independently from uplink and downlink transmissions between the second serving node and the wireless device;
  
  receiving, by the wireless device, a downlink (DL) data signal in a physical downlink shared channel (PDSCH) transmitted from the first serving node, wherein the first PDCCH, the first PHICH, and the PDSCH are multiplexed to be transmitted from the first serving node;
  
  transmitting, by the wireless device, a first physical uplink control channel (PUCCH) to the first serving node while also transmitting a second PUCCH to the second serving node; and
  
  transmitting, by the wireless device, an uplink (UL) data signal in a physical uplink shared channel (PUSCH) transmitted to the second serving node, wherein the second PUCCH and the PUSCH are multiplexed to be transmitted to the second serving node.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The method of claim 1, wherein the first PUCCH and the second PUCCH comprise at least one of:
    - a sounding reference signal (SRS);
      
      an acknowledgment or no acknowledgment (ACK/NACK) signal;
      
      a channel quality indicator (CQI) signal;
      
      a precoding matrix indictor (PMI) signal;
      
      a rank indicator (RI) signal;
      
      ora scheduling request indicator (SRI) signal.
  - 3. The method of claim 1, wherein the first PDCCH and the second PDCCH comprise at least one of:
    - a downlink grant signal;
      
      an uplink grant signal;
      
      a timing adjustment signal;
      
      ora transmission power control (TPC) signal.
  - 4. The method of claim 3, wherein the first PDCCH at least includes the downlink grant signal and the second PDCCH at least includes the uplink grant signal, wherein the downlink grant signal is used by the first serving node to transmit the DL data signal to the wireless device via the PDSCH, and wherein the uplink grant signal is used by the wireless device to transmit the UL data signal to the second serving node via the PUSCH.
  - 5. The method of claim 1, wherein the wireless device is configured to maintain separate time synchronization with the first node and the second node.
  - 6. The method of claim 1, further comprising selecting the first serving node from multiple serving nodes using at least one of received signal strength, bit error rate and word error rate.
  - 7. The method of claim 1, further comprising selecting the second serving node from multiple serving nodes using at least one of received signal strength, bit error rate and word error rate.
  - 8. The method of claim 1, wherein the first PDCCH at least includes a first DL control signal and the second PDCCH at least include a second DL control signal, wherein the first DL control signal and the second DL control signal are independently transmitted to the wireless device by the first node and the second node, respectively.

9. A wireless device in a Long Term Evolution (LTE) wireless communication system, the wireless device comprising:
- a processor coupled to a memory containing processor-executable instructions, wherein the processor is configured to;
  
  receive a first physical downlink control channel (PDCCH) and a first physical hybrid automatic repeat request indicator channel (PHICH) from a first serving node simultaneously with receiving a second PDCCH and a second PHICH from a second serving node geographically positioned separately from the first serving node, wherein the first and second serving nodes are each configured to schedule transmissions with the wireless device without coordinating with one another such that uplink and downlink transmissions between the first serving node and the wireless device are scheduled independently from uplink and downlink transmissions between the second serving node and the wireless device; and
  
  transmit a first physical uplink control channel (PUCCH) to the first serving node simultaneously with transmitting a second PUCCH to the second serving node,wherein the wireless device receives data from the first serving node in a physical downlink shared channel (PDSCH) and transmits the data to the second serving node in a physical uplink shared channel (PUSCH),wherein the first PDCCH, the first PHICH, and the PDSCH are multiplexed to be transmitted from the first serving node, andwherein the second PUCCH and the PUSCH are multiplexed to be transmitted to the second serving node.
- View Dependent Claims (10, 11)
- - 10. The wireless device of claim 9, wherein the first PUCCH and the second PUCCH comprise at least one of:
    - a sounding reference signal (SRS);
      
      an acknowledgment or no acknowledgment (ACK/NACK) signal;
      
      a channel quality indicator (CQI) signal;
      
      a precoding matrix indictor (PMI) signal;
      
      a rank indicator (RI) signal;
      
      ora scheduling request indicator (SRI) signal.
  - 11. The wireless device of claim 9, wherein the first PDCCH and the second PDCCH comprise at least one of:
    - a downlink grant signal;
      
      an uplink grant signal;
      
      a timing adjustment signal;
      
      ora transmission power control (TPC) signal.

12. A system of communication in a Long Term Evolution (LTE) wireless communication system, the system of communication comprising:
- a wireless device;
  
  a first serving node communicatively linked to the wireless device; and
  
  a second serving node communicatively linked to the wireless device and geographically positioned separately from the first serving node, wherein the first and second serving nodes are configured to schedule transmissions with the wireless device without coordinating with one another such that uplink and downlink transmissions between the first serving node and the wireless device are scheduled independently from uplink and downlink transmissions between the second serving node and the wireless device;
  
  wherein the first serving node transmits a first physical downlink control channel (PDCCH) and a first physical hybrid automatic repeat request indicator channel (PHICH) to the wireless device simultaneously with the second serving node transmitting a second PDCCH and a second PHICH to the wireless device;
  
  wherein the wireless device transmits a first physical uplink control channel (PUCCH) to the first serving node simultaneously with transmitting a second PUCCH to the second serving node;
  
  wherein the wireless device receives data from the first serving node in a physical downlink shared channel (PDSCH) and transmits the data to the second serving node in a physical uplink shared channel (PUSCH);
  
  wherein the first PDCCH, the first PHICH, and the PDSCH are multiplexed to be transmitted from the first serving node; and
  
  wherein the second PUCCH and the PUSCH are multiplexed to be transmitted to the second serving node.
- View Dependent Claims (13, 14, 15, 16, 17)
- - 13. The system of communication of claim 12, wherein the first PUCCH and the second PUCCH comprise at least one of:
    - a sounding reference signal (SRS);
      
      an acknowledgment or no acknowledgment (ACK/NACK) signal;
      
      a channel quality indicator (CQI) signal;
      
      a precoding matrix indictor (PMI) signal;
      
      a rank indicator (RI) signal;
      
      ora scheduling request indicator (SRI) signal.
  - 14. The system of communication of claim 12, wherein the first PDCCH and the second PDCCH comprise at least one of:
    - a downlink grant signal;
      
      an uplink grant signal;
      
      a timing adjustment signal;
      
      ora transmission power control (TPC) signal.
  - 15. The system of communication of claim 12, wherein the wireless device is configured to maintain separate time synchronization with the first serving node and the second serving node.
  - 16. The system of communication of claim 12, wherein the first serving node is selected from multiple serving nodes using at least one of received signal strength, bit error rate and word error rate.
  - 17. The system of communication of claim 12, wherein the second serving node is selected from multiple serving nodes using at least one of received signal strength, bit error rate and word error rate.

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Current Assignee
Malikie Innovations Limited (Key Patent Innovations Limited)
Original Assignee
Blackberry Limited
Inventors
Yu, Yi, Hu, Rose Qingyang, Cai, Zhijun, Womack, James Earl
Primary Examiner(s)
Skripnikov, Alex

Application Number

US14/707,849
Publication Number

US 20150245338A1
Time in Patent Office

1,495 Days
Field of Search

None
US Class Current
CPC Class Codes

H04B 7/024   Co-operative use of antenna...

H04B 7/0621   Feedback content

H04W 72/20   Control channels or signall...

H04W 84/047   using dedicated repeater st...

H04W 88/04   adapted for relaying to or ...

Wireless communication system using multiple-serving nodes

First Claim

8 Assignments

0 Petitions

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Abstract

30 Citations

17 Claims

Specification

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Wireless communication system using multiple-serving nodes

First Claim

8 Assignments

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0 Petitions

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Accused Products

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Abstract

30 Citations

17 Claims

Specification

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Solutions

Use Cases

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