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A method and apparatus reduces error in a communication system that includes multiple orthogonal subcarriers by suppressing a subcarrier in a transmitting communication device and by equalizing a received signal in a receiving communication device. Subcarrier suppression is based on a determination

A method and apparatus reduces error in a communication system that includes multiple orthogonal subcarriers by suppressing a subcarrier in a transmitting communication device and by equalizing a received signal in a receiving communication device. Subcarrier suppression is based on a determination of a signal quality metric with respect to each subcarrier or is based on a determination of excessive signal power overdriving an amplifier of the receiving communication device. Equalization of the received signal is based on an equalization function that reduces a multipath delay introduced to the transmitted signal when the multipath delay exceeds a tolerable multipath delay.

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What is claimed is: 1. A communication device comprising: a receiver that receives a signal that comprises a plurality of orthogonal subcarriers; a signal processing unit coupled to the receiver that receives the plurality of orthogonal subcarriers from the receiver, determines a signal quality met

What is claimed is: 1. A communication device comprising: a receiver that receives a signal that comprises a plurality of orthogonal subcarriers; a signal processing unit coupled to the receiver that receives the plurality of orthogonal subcarriers from the receiver, determines a signal quality metric for each subcarrier of the plurality of orthogonal subcarriers, determines subcarrier suppression information based on the determined signal quality metrics, and removes a guard band interval, wherein the signal quality metric for each said subcarrier is determined from a peak-to-average power ratio; and a transmitter coupled to the signal processing unit that receives the subcarrier suppression information from the signal processing unit and transmits the received subcarrier suppression information. 2. The communication device of claim 1, wherein the subcarrier suppression information comprises the determined signal quality metrics. 3. The communication device of claim 1, further comprising a memory associated with the signal processing unit that stores a signal quality metric threshold, wherein the signal processing unit further retrieves the signal quality metric threshold from the memory and compares at least one determined signal quality metric to the signal quality metric threshold to produce a comparison, and wherein the subcarrier suppression information comprises the comparison. 4. The communication device of claim 1, wherein the signal processing unit determines a quantity of subcarriers to reduce the peak-to-average power ratio. 5. In a communication system comprising an orthogonal modulation scheme wherein user information is modulated onto a plurality of orthogonal subcarriers, a communication device comprising: a receiver that receives a signal comprising subcarrier suppression information, wherein the subcarrier suppression information is based on a plurality of signal quality metrics determined for each orthogonal subcarrier of the plurality of orthogonal subcarriers, wherein the plurality of signal quality metrics is determined from a peak-to-average power ratio; a signal processing unit coupled to the receiver that receives the subcarrier suppression information, suppresses at least one orthogonal subcarrier of the plurality of orthogonal subcarriers based on the subcarrier suppression information to produce a suppressed orthogonal subcarrier, receives data sourced by a data source, modulates the data onto a non-suppressed orthogonal subcarrier of the plurality of orthogonal subcarriers to produce a modulated non-suppressed orthogonal subcarrier; and a transmitter coupled to the signal processing unit that transmits the modulated non-suppressed orthogonal subcarrier and that inserts a guard band interval to ameliorate intersymbol interference. 6. The communication device of claim 5, wherein the signal processing unit modulates the data onto each orthogonal subcarrier of the plurality of orthogonal subcarriers prior to suppressing the at least one orthogonal subcarrier. 7. In a communication system wherein a communication channel introduces multipath delay to a transmitted signal, a communication device comprising: a receiver configured to receive a first signal comprising a plurality of orthogonal subcarriers; a signal processing unit coupled to the receiver configured to: determine a transfer function corresponding to the communication channel; determine an equalization function that is based on a determined communication channel transfer function and that reduces the multipath delay when the multipath delay exceeds a predetermined multipath delay; process the signal based on the determined equalization function to reduce intersymbol interference; and determine subcarrier suppression information based on the plurality of orthogonal subcarriers included in the first signal; and convey the determined subcarrier suppression information to a transmitter coupled to the signal processing unit; and the transmitter configured to transmit the subcarrier suppression information. 8. The communication device of claim 7, wherein the determination of an equalization function by the signal processing unit comprises determining a desired composite communication channel transfer function and determining an equalization function based on the communication channel transfer function and the desired composite communication channel transfer function. 9. The communication device of claim 7, wherein the communication device further comprises a plurality of antennas, wherein the reception by the receiver of a signal comprises receiving a transmitted signal via each antenna of the plurality of antennas to produce a plurality of received signals, wherein the transmitted signal comprises a plurality of orthogonal subcarriers, wherein a determination of an equalization function by the signal processing unit comprises a determination of a plurality of equalization functions based on a determination of at least one communication channel transfer function, wherein the plurality of equalization functions together reduce a multipath delay of the transmitted signal when the multipath delay exceeds a predetermined multipath delay, and wherein a processing of the signal by the signal processing unit comprises processing each received signal based on a determined equalization function of the plurality of determined equalization functions. 10. The communication device of claim 9, wherein the determination of a plurality of equalization functions comprises determining a plurality of composite equalization functions, wherein each composite equalization function of the plurality of composite equalization functions comprises a plurality of equalization functions that together reduce a multipath delay of the transmitted signal, determining an optimal composite equalization function from among the plurality of composite equalization functions, and determining a plurality of equalization functions based on the determination of an optimal composite equalization function. 11. The communication device of claim 10, wherein the determination of an optimal composite equalization function comprises determining, for each composite equalization function of the plurality of composite equalization functions, a signal-to-noise ratio (SNR) for at least one subcarrier of a signal received by the communication device to produce determined SNR's, determining, for each composite equalization function of the plurality of composite equalization functions, a minimum SNR from among the determined SNR's, determining a maximum SNR from among the minimum SNR's determined for each composite equalization function of the plurality of composite equalization functions to produce a determined maximum SNR, and determining an optimal composite equalization function based on the composite equalization function corresponding to the determined maximum SNR.