Pre-cancelling postcursors in decision feedback equalization
First Claim
1. An equalizer structure for use in a broadband wireless radio receiver for receiving a transmitted signal from a radio channel, comprising:
- a feedforward filter for generating a feedforward signal based on the transmitted signal;
decision means coupled to the feedforward filter for generating detected data based on the feedforward signal; and
a feedback section coupled to the decision means including a means for estimating an impulse response of the radio channel and generating a channel impulse response signal, and a weighting network for convolving one or more versions of the detected data with the channel impulse response signal;
whereinthe feedforward filter includes a first tapped delay line having one or more taps;
the feedback section includes a second tapped delay line having one or more taps, andthe second tapped delay line generates the one or more versions of the detected data; and
the feedback section is coupled to the feedforward filter, andthe feedback section generates one or more feedback outputs.
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Accused Products
Abstract
The complexity and training time of decision-feedback equalization (DFE) structures for use in broadband wireless communications are reduced. A modified DFE structure is able to pre-cancel postcursors in the received signal without requiring training of the feedback filter. In the modified DFE structure, an estimated channel impulse response is used in the feedback section. The output of the feedback section is passed to the feedforward filter to cancel the postcursors before convolving the result of the cancellation with the feedforward filter tap gains. Therefore, only the feedforward filter needs to be trained. In broadband wireless channels, the modified DFE structure can potentially speed up the training process by ten to twenty times compared to conventional structures.
121 Citations
11 Claims
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1. An equalizer structure for use in a broadband wireless radio receiver for receiving a transmitted signal from a radio channel, comprising:
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a feedforward filter for generating a feedforward signal based on the transmitted signal; decision means coupled to the feedforward filter for generating detected data based on the feedforward signal; and a feedback section coupled to the decision means including a means for estimating an impulse response of the radio channel and generating a channel impulse response signal, and a weighting network for convolving one or more versions of the detected data with the channel impulse response signal;
whereinthe feedforward filter includes a first tapped delay line having one or more taps; the feedback section includes a second tapped delay line having one or more taps, and the second tapped delay line generates the one or more versions of the detected data; and the feedback section is coupled to the feedforward filter, and the feedback section generates one or more feedback outputs. - View Dependent Claims (2)
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3. An equalizer structure for use in a broadband wireless radio receiver for receiving a transmitted signal from a radio channel, comprising:
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a feedforward filter for generating a feedforward signal based on the transmitted signal; decision means coupled to the feedforward filter for generating detected data based on the feedforward signal; and a feedback section coupled to the decision means including a weighting network for convolving one or more versions of the detected data with a channel impulse response signal; and
further comprisingmeans for estimating an impulse response of the radio channel and generating a channel impulse response signal;
whereinthe transmitted signal includes a sync word; and the sync word is used to generate the channel impulse response signal.
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4. A method of equalization for use in a broadband wireless radio receiver for receiving a radio signal from a radio channel, comprising the following steps:
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(A) generating a feedforward signal based on the radio signal; (B) generating detected data based on the feedforward signal; (C) estimating an impulse response of the radio channel and generating a channel impulse response signal; (D) generating one or more feedback outputs by convolving one or more versions of the detected data with the channel impulse response signal; and (E) cancelling postcursor intersymbol interference in the radio signal using the one or more feedback outputs;
wherein step (A) includes the steps of;generating one or more versions of the radio signal; subtracting the one or more feedback outputs from the one or more versions of the radio signal to generate a precanceled signal; and convolving the precanceled signal with one or more feedforward filter tap gains to generate the feedforward signal.
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5. A method of training an equalizer structure having a feedforward filter and a feedback section for use in a broadband wireless radio receiver for receiving a radio signal from a radio channel, comprising the following steps:
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(A) receiving at the feedforward filter a radio signal based on a known sync word; (B) cancelling postcursor intersymbol interference in the radio signal to generate a precanceled signal using a channel impulse response signal; (C) convolving the precanceled signal with one or more tap gains in the feedforward filter to generate an error signal; (D) adjusting the one or more tap gains in the feedforward filter based on the error signal; and (E) determining one or more tap gains for the feedback section by convolving the channel impulse response signal with the one or more tap gains in the feedforward filter. - View Dependent Claims (6, 7, 8, 9, 10, 11)
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Specification