MOBILE COMMUNICATION SYSTEM USING SUBCODING TECHNIQUES

US 20180270016A1
Filed: 08/23/2016
Published: 09/20/2018
Est. Priority Date: 09/24/2015
Status: Active Grant

First Claim

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1-25. -25. (canceled)

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Abstract

The disclosure relates to a mobile communication system, including: a first transmission path configured to transmit a message according to a first radio access technology; a second transmission path configured to transmit the message according to a second radio access technology; and an encoder configured to encode the message by a code before transmission of the message over the first transmission path and the second transmission path, wherein the code comprises at least two subcodes, and wherein the encoder is configured to encode the message intended for transmission over the first transmission path with a first subcode of the at least two subcodes and to encode the message intended for transmission over the second transmission path with a second subcode of the at least two subcodes.

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50 Claims

1-25. -25. (canceled)

26. A mobile communication system, comprising:
- a first transmission path configured to transmit a message according to a first radio access technology;
  
  a second transmission path configured to transmit the message according to a second radio access technology; and
  
  an encoder configured to encode the message by a code before transmission of the message over the first transmission path and the second transmission path,wherein the code comprises at least two subcodes, andwherein the encoder is configured to encode the message intended for transmission over the first transmission path with a first subcode of the at least two subcodes and to encode the message intended for transmission over the second transmission path with a second subcode of the at least two subcodes.
- View Dependent Claims (27, 28, 29, 30, 31, 32, 33)
- - 27. The mobile communication system of claim 26,wherein a channel code of the first radio access technology is a multi-Edge Low Density Parity Check (LDPC) code from the beginning;
    - orwherein the channel code of the first radio access technology is a multi-Edge LDPC code as a replacement code for an original channel code different from a multi-Edge LDPC code.
  - 28. The mobile communication system of claim 26,wherein the first radio access technology is a technology based on LDPC codes of one of IEEE 802.11ac or IEEE 802.11n;
    - andwherein the second radio access technology is a millimeter wave radio access technology.
  - 29. The mobile communication system of claim 26,wherein the code comprising the at least two subcodes comprises a multi-edge low density parity check (LDPC) code;
    - andwherein each subcode of the at least two subcodes corresponds to a different edge-type having a specific node degree distribution.
  - 30. The mobile communication system of claim 29,wherein the first subcode is based on a signal to interference and noise characteristic of the first transmission path;
    - wherein the second subcode is based on a signal to interference and noise characteristic of the second transmission path; and
      
      wherein the first subcode and the second subcode are optimized with respect to an observed multi-path propagation profile.
  - 31. The mobile communication system of claim 29,wherein the message comprises a plurality of data containers;
    - andwherein the first subcode is allocated to a first data container of the plurality of data containers and the second subcode is allocated to a second data container of the plurality of data containers.
  - 32. The mobile communication system of claim 31,wherein the allocation of the first subcode to the first data container is based on a signal-to-interference and noise ratio (SINR) of the first data container.
  - 33. The mobile communication system of claim 32,wherein the first subcode is designed for allocation to a data container of the plurality of data containers in which an SINR is above a first SINR level;
    - andwherein the second subcode is designed for allocation to a data container of the plurality of data containers in which an SINR is below a second SINR level.

34. A mobile receiver, comprising:
- a receiving circuit, configured to receive a signal comprising transmissions from a serving radio cell and a plurality of interfering radio cells, wherein the signal is encoded by a code comprising a plurality of subcodes; and
  
  a detection circuit configured to detect a first interference scenario based on decoding the signal with a first subcode of the plurality of subcodes and to detect a second interference scenario based on decoding the signal with a second subcode of the plurality of subcodes.
- View Dependent Claims (35, 36, 37, 38)
- - 35. The mobile receiver of claim 34,wherein the receiving circuit is configured to receive the signal comprising a plurality of resource blocks, wherein a particular subcode of the plurality of subcodes is allocated to a respective resource block of the plurality of resource blocks.
  - 36. The mobile receiver of claim 35,wherein the particular subcode allocated to the respective resource block depends on a channel gain of the respective resource block.
  - 37. The mobile receiver of claim 34,wherein the first subcode is adapted for the first interference scenario and the second subcode is adapted for the second interference scenario.
  - 38. The mobile receiver of claim 34,wherein the code comprises a multi-edge low density parity check (LDPC) code comprising a plurality of multi-edge LDPC subcodes.

39. A method for generating a super low density parity check (LDPC) code based on an LDPC code comprising a first set of variable nodes and a second set of check nodes, the method comprising:
- generating a plurality of edge types for the first set of variable nodes and the second set of check nodes, each edge type depending on a particular radio access technology of a set of radio access technologies and a channel profile of the particular radio access technology;
  
  connecting a particular edge type of the variable nodes with a corresponding edge type of the check nodes according to a particular subcode of the LDPC code; and
  
  generating the super low density parity check (LDPC) code based on the edge type connections of the plurality of edge types.
- View Dependent Claims (40, 41, 42, 43, 44)
- - 40. The method of claim 39,wherein the particular subcode of the LDPC code is optimized for the particular radio access technology and the channel profile of the particular radio access technology.
  - 41. The method of claim 39, comprising:
    - generating the channel profile of the particular radio access technology as a step function representing a statistical distribution of channel gains of the particular radio access technology in a quantized representation.
  - 42. The method of claim 39, comprising:
    - identifying the set of radio access technologies based on radio access technologies that can be combined in a transmitter or receiver pair and based on a required link characteristic of the transmitter or receiver pair.
  - 43. The method of claim 39,wherein the LDPC code comprises a multi-edge LDPC code comprising a plurality of multi-edge LDPC subcodes.
  - 44. The method of claim 39,generating the super low density parity check (LDPC) code as a matrix comprising all edge type connections of the plurality of edge types.

45. A method for generating a multi-edge LDPC code for encoding a message in a mobile communication system, the method comprising:
- generating a first set of variable nodes and a second set of check nodes;
  
  generating a plurality of edge types for the first set of variable nodes and the second set of check nodes; and
  
  connecting an edge type of the set of variable nodes with a corresponding edge type of the check nodes according to a predetermined metric that is based on extrinsic mutual information exchanged between the first set of variable nodes and the second set of check nodes on each edge type.
- View Dependent Claims (46, 47, 48, 49, 50)
- - 46. The method of claim 45, comprising:
    - deriving the extrinsic mutual information based on edge-perspective degree distributions for each edge type.
  - 47. The method of claim 46, comprising:
    - deriving the edge-perspective degree distributions for each edge type by partial derivation of node perspective distributions.
  - 48. The method of claim 45, comprising:
    - deriving the extrinsic mutual information based on extrinsic information exchange (EXIT) charts.
  - 49. The method of claim 45,wherein the predetermined metric is configured to minimize the extrinsic mutual information for each edge type.
  - 50. The method of claim 45, comprising:
    - encoding the message by the multi-edge LDPC code; and
      
      transmitting the encoded message over a first transmission path according to a first radio access technology and a second transmission path according to a second radio access technology.

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Current Assignee
Intel Corporation
Original Assignee
Intel IP Corporation (Intel Corporation)
Inventors
Mueck, Markus Dominik, Drewes, Christian, Sagi, Mark

Granted Patent

US 10,673,560 B2
Time in Patent Office

Days
Field of Search
US Class Current
CPC Class Codes

H03M 13/036   Heuristic code construction...

H03M 13/1102   Codes on graphs and decodin...

H03M 13/1148   Structural properties of th...

H03M 13/116   Quasi-cyclic LDPC [QC-LDPC]...

H03M 13/353   Adaptation to the channel

H03M 13/3761   using code combining, i.e. ...

H03M 13/616   Matrix operations, especial...

H04L 1/0041   Arrangements at the transmi...

H04L 1/0045   Arrangements at the receive...

H04L 1/0057   Block codes H04L1/0061, H04...

H04L 1/0058   Block-coded modulation

H04L 1/02   by diversity reception

H04L 1/20   using signal quality detector

H04L 2001/0096   Channel splitting in point-...

H04W 88/06   adapted for operation in mu...

MOBILE COMMUNICATION SYSTEM USING SUBCODING TECHNIQUES

First Claim

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Abstract

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50 Claims

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MOBILE COMMUNICATION SYSTEM USING SUBCODING TECHNIQUES

First Claim

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