Title :
On the better protection of short-frame turbo codes
Author :
Chi, Zhipei ; Wang, Zhongfeng ; Parhi, Keshab K.
Author_Institution :
Marvell Semicond. Inc., Sunnyvale, CA, USA
Abstract :
Protecting short data frames by turbo coding is a challenging task because of the small interleaver size and the need for transmission efficiency. In this letter, turbo-decoding-metrics aided short cyclic redundancy check codes are applied to novel tailbiting encoded trellis codes with a twofold purpose: to stop the iterative decoding processes to achieve low-power design and to reduce fractional coding-rate loss. Significant coding gains can be achieved by actually increasing the transmission rate with a negligible increase in power consumption. Performance improvement is demonstrated over additive white Gaussian noise channels. The savings is up to 21.4% for the transmission throughput and 21.5% for the energy consumption of the turbo decoder when frame size 49 is used.
Keywords :
AWGN channels; channel coding; cyclic redundancy check codes; iterative decoding; trellis codes; turbo codes; additive white Gaussian noise channels; fractional coding-rate loss; interleaver size; iterative decoding process; short data frame protection; short-frame turbo codes; tailbiting encoded trellis codes; turbo-decoding-metrics aided short cyclic redundancy check codes; Convolutional codes; Cyclic redundancy check; Cyclic redundancy check codes; Energy consumption; Error correction; Iterative decoding; Protection; Throughput; Turbo codes; Very large scale integration; CRC; Cyclic redundancy check; error detection; low-power turbo decoder; stopping criterion; tailbiting; trellis termination; turbo coding;
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOMM.2004.833144
