Physical structure and sequence design of midamble in OFDMA systems

US 9,106,357 B2
Filed: 07/07/2014
Issued: 08/11/2015
Est. Priority Date: 12/31/2008
Status: Active Grant

First Claim

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1. A method, comprising:

allocating a midamble channel in a downlink subframe by a base station, wherein the base station and a number of dominant neighboring base stations are located within an OFDMA system;

mapping a midamble sequence onto the midamble channel, wherein the midamble sequence is generated based on a predefined base midamble sequence; and

transmitting a plurality of midamble signals associated with the mapped midamble sequence, wherein the midamble channel and the midamble sequence are arranged such that the plurality of midamble signals do not interfere with other midamble signals associated with the same midamble sequence mapped onto a second midamble channel received from one of the dominant neighboring base stations, and wherein the midamble channel and the second midamble channel are allocated either in different downlink subframe locations or in non-overlapping subcarrier sets in the same downlink subframe location.

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Abstract

In wireless OFDMA systems, midamble is used to facilitate downlink (DL) channel estimation. Midamble signals are transmitted by a base station via a midamble channel allocated in a DL subframe. In a novel symbol-based midamble channel allocation scheme, a midamble channel is allocated in the first or the last OFDM symbol of multiple resource blocks of the subframe, while the remaining consecutive OFDM symbols are used for data transmission. The symbol-based midamble channel provides good coexistence between midamble signals and pilot signals without inducing additional limitation or complexity. Under a novel midamble channel and sequence arrangement, both code sequence and either time-domain or frequency-domain location degrees-of-freedom are considered such that the required number of midamble sequences is substantially smaller than the number of strong interferences. In addition, different midamble sequences are systematically generated based on a base sequence such that the receiving mobile station does not need to memorize all the different code sequences.

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10 Claims

1. A method, comprising:
- allocating a midamble channel in a downlink subframe by a base station, wherein the base station and a number of dominant neighboring base stations are located within an OFDMA system;
  
  mapping a midamble sequence onto the midamble channel, wherein the midamble sequence is generated based on a predefined base midamble sequence; and
  
  transmitting a plurality of midamble signals associated with the mapped midamble sequence, wherein the midamble channel and the midamble sequence are arranged such that the plurality of midamble signals do not interfere with other midamble signals associated with the same midamble sequence mapped onto a second midamble channel received from one of the dominant neighboring base stations, and wherein the midamble channel and the second midamble channel are allocated either in different downlink subframe locations or in non-overlapping subcarrier sets in the same downlink subframe location.
- View Dependent Claims (2, 3, 4)
- - 2. The method of claim 1, wherein the midamble sequence is generated by cyclic shifting the base midamble sequence, and wherein the shifting rule is based on a Cell_ID of the base station.
  - 3. The method of claim 1, wherein the midamble sequence is generated by separation-and-combination (SC) operation on the base midamble sequence, and wherein the SC rule is based on a Cell_ID of the base station.
  - 4. The method of claim 1, wherein the midamble sequence is generated by pseudo-randomly interleaving the base midamble sequence, and wherein the interleaving rule is based on a Cell_ID of the base station.

5. A method, comprising:
- allocating a midamble channel in a downlink subframe by a base station, wherein the base station and a number of dominant neighboring base stations are located within an OFDMA system;
  
  mapping a midamble sequence onto the midamble channel, wherein the midamble sequence is generated based on a predefined base midamble sequence; and
  
  transmitting a plurality of midamble signals associated with the mapped midamble sequence, wherein the midamble channel and the midamble sequence are arranged such that the plurality of midamble signals do not interfere with other midamble signals associated with a second midamble sequence, wherein the second midamble sequence is mapped onto a second midamble channel and received from one of the dominant neighboring base stations, and wherein the midamble channel and the second midamble channel are allocated in the same downlink subframe location with either an overlapping subcarrier set or non-overlapping subcarrier sets.

6. A base station located in an OFDMA system having a number of dominant neighboring base stations, the base station comprising:
- a midamble channel allocation module for allocating a midamble channel in a downlink subframe;
  
  a midamble sequence generator for generating a midamble sequence and mapping the midamble sequence onto the midamble channel, wherein the midamble sequence is generated based on a predefined base midamble sequence; and
  
  a transmitter that transmits a plurality of midamble signals associated with the mapped midamble sequence, wherein the midamble channel and the midamble sequence are arranged such that the plurality of midamble signals do not interfere with other midamble signals associated with the same midamble sequence mapped onto a second midamble channel received from one of the dominant neighboring base stations, and wherein the midamble channel and the second midamble channel are allocated either in different downlink subframe locations or in non-overlapping subcarrier sets in the same downlink subframe location.
- View Dependent Claims (7, 8, 9)
- - 7. The base station of claim 6, wherein the midamble sequence is generated by cyclic shifting the base midamble sequence, and wherein the shifting rule is based on a Cell_ID of the base station.
  - 8. The base station of claim 6, wherein the midamble sequence is generated by separation-and-combination (SC) operation on the base midamble sequence, and wherein the SC rule is based on a Cell_ID of the base station.
  - 9. The base station of claim 6, wherein the midamble sequence is generated by pseudo-randomly interleaving the base midamble sequence, and wherein the interleaving rule is based on a Cell_ID of the base station.

10. A base station located in an OFDMA system having a number of dominant neighboring base stations, the base station comprising:
- a midamble channel allocation module for allocating a midamble channel in a downlink subframe;
  
  a midamble sequence generator for generating a midamble sequence and mapping the midamble sequence onto the midamble channel, wherein the midamble sequence is generated based on a predefined base midamble sequence; and
  
  a transmitter that transmits a plurality of midamble signals associated with the mapped midamble sequence, wherein the midamble channel and the midamble sequence are arranged such that the plurality of midamble signals do not interfere with other midamble signals associated with a second midamble sequence, wherein the second midamble sequence is mapped onto a second midamble channel and received from one of the dominant neighboring base stations, and wherein the midamble channel and the second midamble channel are allocated in the same downlink subframe location with either an overlapping subcarrier set or non-overlapping subcarrier sets.

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Current Assignee
MediaTek, Inc.
Original Assignee
MediaTek, Inc.
Inventors
Lin, Chih-Yuan, Liao, Pei-Kai
Primary Examiner(s)
EBRAHIM, ANEZ C

Application Number

US14/324,236
Publication Number

US 20140321385A1
Time in Patent Office

400 Days
Field of Search
US Class Current

1/1
CPC Class Codes

H04J 11/005   of intercell interference

H04L 2025/03796   Location of reference signals

H04L 27/261   Details of reference signals

H04L 5/0007   the frequencies being ortho...

H04L 5/005   of common pilots, i.e. pilo...

Physical structure and sequence design of midamble in OFDMA systems

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Physical structure and sequence design of midamble in OFDMA systems

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