Method and apparatus for transferring multiple symbol streams at low bit-error rates in a narrowband channel

US 20040028146A1
Filed: 08/12/2002
Published: 02/12/2004
Est. Priority Date: 08/12/2002
Status: Active Grant

First Claim

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1. A method for transferring a data sequence through a narrowband channel comprising the steps of:

(a) transmitting a narrowband signal, including the steps of (a.1) distributing the data sequence over a plurality of concurrent sub-sequences, (a.2) modulating each of a plurality of subchannel carriers with a corresponding sub-sequence, (a.3) producing a complex orthogonal frequency-division multiplexed (OFDM) signal representing the inverse Fourier transform (IFT) of a combination of the modulated subchannel carriers, (a.4) modulating a channel carrier signal with the complex OFDM signal, (a.5) amplifying the modulated channel carrier signal to produce an output signal representing the narrowband signal, (a.6) producing two vector baseband feedback signals corresponding to the modulated channel carrier signal, and (a.7) adjusting the modulated channel carrier signal to maintain output signal linearity responsive to the two vector baseband feedback signals in a feedback loop, and (b) receiving the narrowband signal, including the steps of (b.1) detecting the narrowband signal, (b.2) producing an input signal representing the Fourier transform (FT) of the narrowband signal, and (b.3) demodulating the input signal to recover a corresponding plurality of sub-sequence waveforms, and the corresponding data sequence.

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Abstract

A transceiver system employing vector feedback to linearize the transmitter over a narrowband channel to support concurrent low-rate subchannels, each providing a low bit error rate (BER). Symbols in each subchannel are transmitted at a rate sufficiently slow to avoid multipath errors, thereby spreading each signal component across the entire channel bandwidth to eliminate any remaining discrete non-linearity. The system provides for generating constellations of signal states that can be optimized for both phase and amplitude to represent symbols within existing narrowband mobile communications channels. Symbols are transmitted at a rate sufficiently slow in each subchannel to decorrelate multipath interference at the receiver, thereby better discriminating adjacent symbol states. This transceiver is particularly useful for mobile environments, although it applies equally well to stationary environments. Data sequences may be transferred at up to 110 kbits/sec within a standard 25 kHz RF channel for slow scan video applications.

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18 Claims

1. A method for transferring a data sequence through a narrowband channel comprising the steps of:
- (a) transmitting a narrowband signal, including the steps of (a.1) distributing the data sequence over a plurality of concurrent sub-sequences, (a.2) modulating each of a plurality of subchannel carriers with a corresponding sub-sequence, (a.3) producing a complex orthogonal frequency-division multiplexed (OFDM) signal representing the inverse Fourier transform (IFT) of a combination of the modulated subchannel carriers, (a.4) modulating a channel carrier signal with the complex OFDM signal, (a.5) amplifying the modulated channel carrier signal to produce an output signal representing the narrowband signal, (a.6) producing two vector baseband feedback signals corresponding to the modulated channel carrier signal, and (a.7) adjusting the modulated channel carrier signal to maintain output signal linearity responsive to the two vector baseband feedback signals in a feedback loop, and (b) receiving the narrowband signal, including the steps of (b.1) detecting the narrowband signal, (b.2) producing an input signal representing the Fourier transform (FT) of the narrowband signal, and (b.3) demodulating the input signal to recover a corresponding plurality of sub-sequence waveforms, and the corresponding data sequence.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The method of claim 1 further comprising the step of:
    - (a.3.1) modulating each of the plurality of subchannel carriers with amplitude phase shift keying (APSK) modulation.
  - 3. The method of claim 2 further comprising the steps of:
    - (a.6.1) producing two Cartesian vector baseband feedback signals corresponding to the output signal; and
      
      (a.7.1) adjusting the Cartesian vector baseband feedback signal phases to stabilize the feedback loop.
  - 4. The method of claim 3 further comprising the steps of:
    - (b.1.1) measuring and storing phase errors in the detected narrowband signal during selected time intervals; and
      
      (b.1.2) adjusting the detected narrowband signal phase responsive to the stored phase error measurements.
  - 5. The method of claim 1 further comprising the steps of:
    - (b.1.1) measuring and storing phase errors in the detected narrowband signal during selected time intervals; and
      
      (b.1.2) adjusting the detected narrowband signal phase responsive to the stored phase error measurements.

6. A method for transferring a data sequence through a narrowband channel comprising the steps of:
- (a) modulating a plurality of concurrent subchannel carriers with amplitude phase shift keying (APSK) modulation to represent the data sequence;
  
  (b) producing a complex orthogonal frequency-division multiplexed (OFDM) signal representing the inverse Fourier transform (IFT) of a combination of the modulated subchannel carriers;
  
  (c) modulating a channel carrier signal with the complex OFDM signal;
  
  (d) amplifying the modulated channel carrier signal to produce an output signal;
  
  (e) producing two vector baseband feedback signals corresponding to the output signal;
  
  (f) adjusting the modulated channel carrier signal to maintain output signal linearity responsive to the two vector baseband feedback signals in a feedback loop;
  
  (g) receiving and demodulating a narrowband signal representing the output signal to recover the data sequence.
- View Dependent Claims (7)
- - 7. The method of claim 6 further comprising the steps of:
    - (d.1) producing two Cartesian vector baseband feedback signals corresponding to the output signal; and
      
      (e.1) adjusting the Cartesian vector baseband feedback signal phases to stabilize the feedback loop.

8. A transceiver system for transferring a data sequence through a narrowband radio frequency (RF) channel comprising:
- transmitter means for transmitting a first narrowband signal, including multiplexer means for distributing the data sequence over a plurality of concurrent sub-sequences, subchannel modulator means coupled to the multiplexer means for modulating each of a plurality of subchannel carriers with a corresponding sub-sequence, first digital signal processor (DSP) means coupled to the subchannel modulator means for producing a complex orthogonal frequency-division multiplexed (OFDM) signal representing the inverse Fourier transform (IFT) of a combination of the modulated subchannel carriers, complex modulator means coupled to the first DSP means for modulating a channel carrier signal with the complex OFDM signal;
  
  power amplifier means coupled to the complex modulator means for amplifying the modulated channel carrier signal to produce an output signal representing the first narrowband signal, vector linearizer means coupled to the power amplifier means for producing two vector baseband feedback signals corresponding to the output signal, and feedback means coupled to the vector linearizer means and the first DSP means for adjusting the modulated channel carrier signal to maintain output signal linearity responsive to the two vector baseband feedback signals in a feedback loop; and
  
  receiver means for receiving a second narrowband signal, including tuner means for detecting the second narrowband signal, second DSP means for producing an input signal representing the Fourier transform (FT) of the second narrowband signal, and demodulator means for demodulating the input signal to recover a corresponding plurality of concurrent sub-sequences and the corresponding data sequence.
- View Dependent Claims (9, 10, 11, 12)
- - 9. The system of claim 8 further comprising:
    - coupled to the subchannel modulating means, amplitude phase shift keying (APSK) means for modulating each of the plurality of subchannel carriers with APSK modulation.
  - 10. The system of claim 9 further comprising:
    - coupled to the vector linearizer means, means for producing two Cartesian vector baseband feedback signals corresponding to the output signal, and means for adjusting the Cartesian vector baseband feedback signal phases to stabilize the feedback loop.
  - 11. The system of claim 10 further comprising:
    - coupled to the tuner means, means for measuring and storing phase errors in the detected second narrowband signal during selected time intervals, and means for adjusting the detected second narrowband signal phase responsive to the stored phase error measurements.
  - 12. The system of claim 8 further comprising:
    - coupled to the tuner means, means for measuring and storing phase errors in the detected second narrowband signal during selected time intervals, and means for adjusting the detected second narrowband signal phase responsive to the stored phase error measurements.

13. A transceiver system for transferring a data sequence through a narrowband channel comprising:
- amplitude phase shift keying (APSK) modulator means for modulating a plurality of concurrent subchannel carriers with APSK modulation to represent the data sequence;
  
  digital signal processor (DSP) means for producing a complex orthogonal frequency-division multiplexed (OFDM) signal representing the inverse Fourier transform (IFT) of a combination of the modulated subchannel carriers;
  
  complex modulator means coupled to the DSP means for modulating a channel carrier signal with the complex OFDM signal;
  
  power amplifier means for amplifying the modulated channel carrier signal to produce an output signal;
  
  vector linearizer means for producing two baseband vector feedback signals corresponding to the output signal;
  
  feedback means for adjusting the modulated channel carrier signal to maintain output signal linearity responsive to the two baseband vector feedback signals in a feedback loop; and
  
  receiver means for receiving and demodulating a narrowband signal representing the output signal to recover the data sequence.
- View Dependent Claims (14)
- - 14. The system of claim 13 further comprising:
    - coupled to the vector linearizer means, means for producing two Cartesian vector baseband feedback signals corresponding to the amplified modulated channel carrier signal, and means for adjusting the Cartesian vector baseband feedback signal phases to stabilize the feedback loop.

15. In a transceiver system for transferring a data sequence through a narrowband channel, a transmitter for transmitting a narrowband signal comprising:
- a digital multiplexer for distributing the data sequence over a plurality of concurrent sub-sequences;
  
  a subchannel modulator coupled to the digital multiplexer for modulating each of a plurality of subchannel carriers with a corresponding sub-sequence;
  
  a digital signal processor (DSP) coupled to the subchannel modulator for producing a modulated channel carrier signal representing the inverse Fourier transform (IFT) of a combination of the modulated subchannel carriers;
  
  a complex modulator coupled to the DSP for modulating a channel carrier signal with the complex OFDM signal;
  
  a power amplifier coupled to the modulator for amplifying the modulated channel carrier signal to produce an output signal;
  
  a vector linearizer circuit coupled to the power amplifier for producing two vector baseband feedback signals corresponding to the output signal; and
  
  a feedback loop coupling the vector linearizer circuit to the modulator for adjusting the modulated channel carrier signal to maintain output signal linearity responsive to the two vector baseband feedback signals.
- View Dependent Claims (16, 17)
- - 16. The transmitter of claim 15 further comprising:
    - an amplitude phase shift keying (APSK) modulator coupled to the digital multiplexer for modulating each of the plurality of subchannel carriers with APSK modulation.
  - 17. The transmitter of claim 16 further comprising:
    - a Cartesian vector linearizer circuit coupled to the power amplifier for producing two Cartesian vector baseband feedback signals corresponding to the output signal; and
      
      a phase shifter coupled to the Cartesian vector linearizer circuit for adjusting the Cartesian vector baseband feedback signal phases to stabilize the feedback loop.

18. In a transceiver system for transferring a data sequence through a narrowband channel, a receiver for receiving a narrowband signal, comprising:
- a tuner for detecting the narrowband signal;
  
  a digital signal processor (DSP) coupled to the tuner for producing an input signal representing the Fourier transform (FFT) of the narrowband signal;
  
  a demodulator coupled to the DSP for demodulating the input signal to recover a corresponding plurality of concurrent sub-sequences and the corresponding data sequence;
  
  an error measurement circuit coupled to the tuner for measuring and storing phase errors in the detected narrowband signal during selected time intervals, and an adaptive correction circuit coupled to the tuner and the error measurement circuit for adjusting the detected narrowband signal phase responsive to the stored phase error measurements.

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Current Assignee
Cubic Corporation
Original Assignee
Cubic Corporation
Inventors
Winkler, Clive

Granted Patent

US 7,116,726 B2
Time in Patent Office

Days
Field of Search
US Class Current

375/260
CPC Class Codes

H04L 27/2626   Arrangements specific to th...

H04L 27/2647   Arrangements specific to th...

H04L 27/368   adaptive predistortion

Method and apparatus for transferring multiple symbol streams at low bit-error rates in a narrowband channel

First Claim

2 Assignments

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Abstract

44 Citations

18 Claims

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Method and apparatus for transferring multiple symbol streams at low bit-error rates in a narrowband channel

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

44 Citations

18 Claims

Specification

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Solutions

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