A technique for encoding a signal used in a digital communication system in which individual traffic channel data rates may be adapted to specific channel conditions. In particular, a forward error correction coding rate is adapted for individual channels while at the same time maintaining a fixed b
A technique for encoding a signal used in a digital communication system in which individual traffic channel data rates may be adapted to specific channel conditions. In particular, a forward error correction coding rate is adapted for individual channels while at the same time maintaining a fixed block size independent of the FEC coding rate. This allows the system data rate to adapt to the channel conditions experienced by a specific user. Thus, users experiencing good communication conditions with low multipath distortion may be allocated higher capacity, whereas users with significant multipath distortion may make use of lower rate (higher levels of coding) error codes to maintain high quality. Messages are sent from a transmitter to a receiver to inform the receiver of the coding rate implemented at any given point in time. These parameters may be adjusted independent of transmitted power level through the expedient of ensuring that size of a transmitted frame remains constant, while permitting the ability to change FEC coding rates and FEC block sizes.
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What is claimed is: 1. A subscriber unit in a wireless network, the subscriber unit comprising: a framer configured to receive bits of input payload data and to group the bits into a plurality of differently-sized, pre-encoded frames; a forward error correction (FEC) encoder configured to encode bi
What is claimed is: 1. A subscriber unit in a wireless network, the subscriber unit comprising: a framer configured to receive bits of input payload data and to group the bits into a plurality of differently-sized, pre-encoded frames; a forward error correction (FEC) encoder configured to encode bits of the plurality of differently-sized, pre-encoded frames to include an error correction code such that a resulting number of output encoded symbols remains fixed, even when a number of bits in a pre-encoded frame changes; a modulator configured to modulate the encoded symbols according to a multiple-access modulation technique to produce a modulated encoded signal; and a radio frequency (RF) up-converter configured to transmit the modulated encoded signal. 2. The subscriber unit of claim 1, wherein the framer further comprises a plurality of framer circuits, each framer circuit configured to group bits of the input payload data into a respective one of the plurality of differently-sized, pre-encoded frames. 3. The subscriber unit of claim 2, wherein one of the plurality of differently-sized, pre-encoded frames is selected to produce, when encoded, a desired number of output symbols in an encoded frame. 4. The subscriber unit of claim 2, wherein the encoder comprises a plurality of framer circuit-FEC symbol encoder pairs, wherein each of the plurality of framer circuit-FEC symbol encoder pairs comprises an FEC symbol encoder in communication with a framer circuit and configured to encode bits of the respective one of the plurality of differently-sized, pre-encoded frames according to a different encoding rate, each of a plurality of framer circuit-FEC symbol encoder pairs providing the same number of encoded symbols in an encoded frame. 5. The subscriber unit of claim 4, wherein a selectable one of the plurality of framer circuit-FEC symbol encoder pairs is activated at any given point in time. 6. The subscriber unit of claim 5, wherein one of the plurality of framer circuit-FEC symbol encoder pairs are configured to receive a coding rate control signal, the framer circuit configured to selectively activate one of the plurality of framer circuits responsive to the received coding rate control signal and the FEC symbol encoder configured to selectively activate one of the plurality of FEC symbol encoders responsive to the received coding rate control signal, such that the activated framer circuit and FEC symbol encoder, provide the same number of encoded symbols in an encoded frame. 7. The subscriber unit of claim 1, wherein the FEC encoder comprises a plurality of FEC symbol encoders, each FEC symbol encoder respectively configured to encode bits of the frames according to a different encoding rate. 8. A method for coding wireless communication channels, the method comprising: receiving bits of input payload data; grouping the bits of input payload data into a plurality of differently-sized, pre-encoded frames; forward error correction (FEC) encoding each of the differently-sized, pre-encoded frames to include a respective error correction code such that a resulting number of encoded symbols in an encoded frame remains constant; selecting encoded symbols from one of the plurality of differently-sized, pre-encoded frames; modulating the selected encoded symbols according to a multiple-access modulation technique to produce a modulated encoded signal; and transmitting the modulated encoded signal. 9. The method of claim 8, wherein the respective sizes of the plurality of differently-sized, pre-encoded frames are selected to produce, when encoded, a desired number of output symbols in an encoded frame. 10. The method of claim 8, wherein said FEC encoding further comprises providing a plurality of FEC symbol encoders, each of the plurality of FEC symbol encoders encoding bits of a respective one of the plurality of differently-sized, pre-encoded frames according to a different encoding rate.
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