Multiple access network and method for digital radio systems

US 20040004945A1
Filed: 04/18/2003
Published: 01/08/2004
Est. Priority Date: 10/22/2001
Status: Abandoned Application

First Claim

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1. A method of communicating digital data information from a plurality of user terminal transmitters, each of which is associated with a beam/node region corresponding to an antenna beam coverage region and a central node, to an uplink receiver with one or more antenna ports at the associated central node, wherein the central node is connected by a fixed communications network to one or more neighbor central nodes and a central processing location that contains a plurality of multiuser detectors each of which is associated with a multiple access channel assignment, comprising the steps of:

assigning a plurality of multiple access channels that belong to a mutually orthogonal set to a plurality of user terminal transmitters associated with a beam/node region and reusing the same multiple access channels for assignment to user terminal transmitters in other beam/node regions, each multiple access channel being associated with a reuse factor, which is defined by the number of user terminal transmitter assignments in different beam/node regions divided by the total number of beam/node regions;

adding, at the user terminal transmitter, error-correction coding to the digital data information to provide coded information;

interleaving, at the user terminal transmitter, the coded information among a plurality of data groups;

multiplexing with each data group, at the user terminal transmitter, a reference signal associated with the user terminal transmitter to provide a multiplexed signal;

modulating, at the user terminal transmitter, the multiplexed signal with a multiple access waveform associated with the assigned multiple access channel to provide a multiple access signal;

transmitting, at the user terminal transmitter, the multiple access signal;

receiving, at one or more antenna ports at the uplink receiver, the multiple access signals from user terminal transmitters associated with the same multiple access channel assignment so as to provide one or more associated beam/node signals;

transferring the central node and neighbor central node beam/node signals via the fixed communications network to the associated multiuser detector;

generating, at the multiuser detector, a plurality of user-identifying replicas of the reference signals associated with user terminal transmitters;

jointprocessing, at the multiuser detector, the associated beam/node signals with user-identifying replicas to provide a plurality of combined signals each associated with a user terminal transmitter, thereby reducing mutual interference from user terminal transmitters in different beam/node regions with the same assigned multiple access channel;

deinterleaving and decoding, at the multiuser detector, each of the combined signals to recover the associated user terminal transmitter digital data information.

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Abstract

A multiple-access digital radio communication network and method with communication uplinks between user terminal transmitters and central nodes that are connected with fixed communication links. User terminal transmitters are assigned to beam/node regions corresponding to an associated central node and their location within the central node antenna beam coverage area. User terminal transmitters assigned to one beam/node coverage region use multiple access channels that are mutually orthogonal for transmitting digital message information. These multiple access channels are reused in adjacent and other beam/node coverage regions. Error-correction coding (25), interleaving (26), and a modulator (29) are used in the user transmitter to increase resistance to potential interference from user terminal transmitters in other beam/node coverage regions. At a central node, an uplink receiver (21) provides digitized beam/node signals to a multiuser detector (23) and via the fixed communication links to multiuser detectors at adjacent central nodes. At the multiuser detector an adaptive processor (32) such as an equalizer or sequence estimator is used to combine beam/node signals from the present central node and adjacent central nodes to produce combined signals each associated with a particular user terminal transmitter. The combining in the adaptive processor reduces interference from user terminal transmitters associated with different beam/node coverage regions but with the same multiple access channel. Deinterleaving (34) and error-correction decoding (35) of the combined signal is used to complete the recovery of the digital message information.

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22 Claims

1. A method of communicating digital data information from a plurality of user terminal transmitters, each of which is associated with a beam/node region corresponding to an antenna beam coverage region and a central node, to an uplink receiver with one or more antenna ports at the associated central node, wherein the central node is connected by a fixed communications network to one or more neighbor central nodes and a central processing location that contains a plurality of multiuser detectors each of which is associated with a multiple access channel assignment, comprising the steps of:
- assigning a plurality of multiple access channels that belong to a mutually orthogonal set to a plurality of user terminal transmitters associated with a beam/node region and reusing the same multiple access channels for assignment to user terminal transmitters in other beam/node regions, each multiple access channel being associated with a reuse factor, which is defined by the number of user terminal transmitter assignments in different beam/node regions divided by the total number of beam/node regions;
  
  adding, at the user terminal transmitter, error-correction coding to the digital data information to provide coded information;
  
  interleaving, at the user terminal transmitter, the coded information among a plurality of data groups;
  
  multiplexing with each data group, at the user terminal transmitter, a reference signal associated with the user terminal transmitter to provide a multiplexed signal;
  
  modulating, at the user terminal transmitter, the multiplexed signal with a multiple access waveform associated with the assigned multiple access channel to provide a multiple access signal;
  
  transmitting, at the user terminal transmitter, the multiple access signal;
  
  receiving, at one or more antenna ports at the uplink receiver, the multiple access signals from user terminal transmitters associated with the same multiple access channel assignment so as to provide one or more associated beam/node signals;
  
  transferring the central node and neighbor central node beam/node signals via the fixed communications network to the associated multiuser detector;
  
  generating, at the multiuser detector, a plurality of user-identifying replicas of the reference signals associated with user terminal transmitters;
  
  jointprocessing, at the multiuser detector, the associated beam/node signals with user-identifying replicas to provide a plurality of combined signals each associated with a user terminal transmitter, thereby reducing mutual interference from user terminal transmitters in different beam/node regions with the same assigned multiple access channel;
  
  deinterleaving and decoding, at the multiuser detector, each of the combined signals to recover the associated user terminal transmitter digital data information.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The method of claim 1 wherein the transferring step further includes:
    - time aligning the beam/node signals.
  - 3. The method of claim 2 wherein the modulating step further includes:
    - modifying in a random or pseudo-random manner the radio frequency characteristics of the multiple access signal for the duration of the multiplexed signal corresponding to each data group.
  - 4. The method of claim 3 wherein the joint processing step further includes:
    - correlating combinations of user-identifying replicas with beam/node signals to provide a plurality of user/beam transmittance values;
      
      calculating the product of transmittance values and beam/node signals to provide a plurality of matched beam/node signals;
      
      converting transmittance values into equalizer weights;
      
      summing the product of equalizer weights and matched beam/node signals, thereby producing the combined signal.
  - 5. The method of claim 4 wherein the converting step further includes:
    - solving a set of simultaneous equations with a Cholskey decomposition.
  - 6. The method of claim 1 wherein the joint processing step further includes:
    - correlating combinations of user-identifying replicas with beam/node signals to provide a plurality of user/beam transmittance values;
      
      calculating the product of transmittance values and beam/node signals to provide a plurality of matched beam/node signals;
      
      converting transmittance values into equalizer weights;
      
      summing the product of equalizer weights and matched beam/node signals, thereby producing the combined signal.
  - 7. The method of claim 6 wherein the converting step further includes:
    - solving a set of simultaneous equations with a Cholskey decomposition.
  - 8. The method of claim 3 wherein the modulating step further includes:
    - utilizing only one of the two quadrature axes.
  - 9. The method of claim 1 wherein the assigning step further includes:
    - reusing at least one multiple access channel in all beam/node regions so that its reuse factor is unity.
  - 10. The method of claim 1 wherein central nodes are independently time synchronized and wherein the joint processing step further includes:
    - partitioning the data group into a plurality of time epochs each of which has independent processing.

11. A communication system for communicating digital data information from a plurality of user terminals, each of which is associated with a beam/node region corresponding to an antenna beam coverage region and a central node, to an antenna with one or more antenna ports at the associated central node, wherein each central node is connected by communication links to one or more neighbor central node, comprising:
- a controller disposed at a central node or distributed within the communication system, that assigns a plurality of multiple access channels that belong to a mutually orthogonal set to the plurality of user terminals associated with a beam/node region, and each multiple access channel is assigned at most once in each of the different beam/node regions;
  
  a user terminal transmitter disposed at the user terminal that transmits digital data information in a multiple access signal to the associated central node;
  
  an error-correction coder disposed at the user terminal that adds error-correction coding to the digital data information to provide coded information;
  
  an interleaver disposed at the user terminal that interleaves the coded information among a plurality of data groups;
  
  a multiplexer disposed at the user terminal that adds to each data group a reference signal associated with the user terminal transmitter to provide a multiplexed signal;
  
  a modulator disposed at the user terminal that operates on the multiplexed signal with a multiple access waveform associated with the assigned multiple access channel to provide a multiple access signal;
  
  an uplink receiver disposed at the central node that receives on the one or more antenna ports the multiple access signals from user terminal transmitters associated with the same multiple access assignment so as to provide a plurality of associated beam/node signals;
  
  link receivers disposed at the central node that receive associated beam/node signals from neighbor central nodes;
  
  a reference generator disposed at the central node that generates a plurality of user-identifying replicas of the reference signal associated with user terminal transmitters;
  
  a multiuser detector disposed at the central node that processes the associated beam/node signals and user-identifying replicas to provide a plurality of combined signals each associated with a user terminal transmitter, thereby reducing mutual interference from user terminal transmitters in different beam/node regions assigned the same multiple access channel, a deinterleaver disposed at the central node that deinterleaves at least one combined signal; and
  
  a decoder disposed at the central node that recovers the user terminal transmitter digital data information.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
- - 12. A communication system according to claim 11 wherein the multiuser detector further includes:
    - a delay compensator for time aligning the associated beam/node signals.
  - 13. A communication system according to claim 12 wherein the modulator further includes:
    - means for modifying in a random or pseudo-random manner the radio frequency characteristics of the multiple access signal for the duration of the multiplexed signal corresponding to each data group.
  - 14. A communication system according to claim 13 wherein the multiuser detector further includes:
    - means for correlating combinations of user-identifying replicas with beam/node signals to provide a plurality of user/beam transmittance values, and means for calculating the product of transmittance values and beam/node signals to provide a plurality of matched beam/node signals, and conversion means for converting transmittance values into equalizer weights, and means for summing the product of equalizer weights and matched beam/node signals, thereby producing the combined signal.
  - 15. A communication system according to claim 14 wherein the conversion means further includes:
    - means for solving a set of simultaneous equations with a Cholskey decomposition.
  - 16. A communication system according to claim 11 wherein the multiuser detector further includes:
    - means for correlating combinations of user-identifying replicas with beam/node signals to provide a plurality of user/beam transmittance values, and means for calculating the product of transmittance values and beam/node signals to provide a plurality of matched beam/node signals, and conversion means for converting transmittance values into equalizer weights, and means for summing the product of equalizer weights and matched beam/node signals, thereby producing the combined signal.
  - 17. A communication system according to claim 16 wherein the conversion means further includes:
    - means for solving a set of simultaneous equations with a Cholskey decomposition.
  - 18. A communication system according to claim 13 wherein the modulator further includes:
    - means for utilizing only one of the two quadrature axes.

19. A method for receiving and processing digital information transmitted from a plurality of user terminals, each of which is associated with a beam/node region corresponding to an antenna beam coverage region and a central node, to the associated central node with an uplink receiver with one or more antenna port inputs and at least one link receiver connected via a fixed communications network to a neighbor central node, and each user terminal transmits a user-identifying reference and digital data information that is error-corrected coded and interleaved in a modulated signal associated with a multiple access channel that belongs to a mutually orthogonal set, comprising the steps of:
- assigning a multiple access channel to a first user terminal in a first beam/node region of a first central node and assigning the same multiple access channel to a second user terminal in a second beam/node region of a neighbor central node and the user/beam transmittance attenuation between the first and second user terminals is unrestricted;
  
  receiving, at the uplink receiver of the associated central node, the modulated signals from the user terminal so as to provide one or more beam/node signals each corresponding to an antenna port input;
  
  transferring, to the first central node via the fixed communications network and the link receiver, one or more neighbor central node beam/node signals associated with the second user terminal;
  
  synchronizing, at the first central node, the central node and neighbor central node beam/node signals to provide time-aligned beam/node signals;
  
  generating, at the first central node, user-identifying replicas of the reference signals associated with the first and second user terminals;
  
  processing, at the first central node, the time-aligned beam/node signals and the user-identifying replicas to provide a combined signal associated with the first user terminal, thereby reducing interference from the second user terminal;
  
  deinterleaving and decoding,. at the first central node, the combined signal to recover the first user terminal digital information.
- View Dependent Claims (20, 21, 22)
- - 20. The method of claim 19 wherein the processing step further includes:
    - correlating combinations of the user-identifying replicas with beam/node signals to provide a plurality of user/beam transmittance values;
      
      calculating the product of transmittance values and beam/node signals to provide a plurality of matched beam/node signals;
      
      converting transmittance values into equalizer weights;
      
      summing the product of equalizer weights and matched beam/node signals, thereby producing the combined signal.
  - 21. The method of claim 20 wherein the converting step further includes:
    - solving a set of simultaneous equations with a Cholskey decomposition.
  - 22. The method of claim 19 wherein the second central node employs a timing clock that is independent of the timing clock in the first central node and wherein the processing step further includes:
    - partitioning the data group into at least two time epochs each of which has independent processing.

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Current Assignee
Peter Monsen
Original Assignee
Peter Monsen
Inventors
Monsen, Peter

Application Number

US10/399,706
Publication Number

US 20040004945A1
Time in Patent Office

Days
Field of Search
US Class Current

370/328
CPC Class Codes

H04B 1/71052   using decorrelation matrix

H04B 1/7115   Constructive combining of m...

H04W 16/28   using beam steering

Multiple access network and method for digital radio systems

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Multiple access network and method for digital radio systems

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