Title :
Decoder-assisted frame synchronization for packet transmission
Author :
Howlader, M. Mostofa K ; Woerner, Brian D.
Author_Institution :
Dept. of Electr. & Comput. Eng., Tennessee Univ., Knoxville, TN, USA
fDate :
12/1/2001 12:00:00 AM
Abstract :
This paper proposes a novel frame synchronization methodology for packets with convolutionally encoded data. Rather than by placing sync bits in a separate header, the sync bits are placed in a midamble and encoded as part of the data sequence, using the error correction encoder to resolve time ambiguities. The scheme is based on the principle that an error in trellis termination may result in decoding a wrong information bit sequence, while the starting portion of the sequence can be decoded as error free. This frame synchronization technique is extended to the synchronization of turbo-coded systems using a list-based approach, where the first synchronizer provides a list of potential packet starting positions, and the following synchronizer makes the final decision. The performance improvement over conventional synchronization techniques is quantified via simulation
Keywords :
Viterbi decoding; convolutional codes; error correction codes; packet switching; synchronisation; turbo codes; BER performance; BPSK; Viterbi decoder; bit sequence; convolutionally encoded data; data sequence; decoder-assisted frame synchronization; decoding; error correction encoder; list-based approach; midamble; packet starting positions; packet transmission; simulation; sync bits; time ambiguity resolution; trellis termination error; turbo-coded systems; AWGN; Convolution; Convolutional codes; Error correction; Iterative decoding; Maximum likelihood decoding; Maximum likelihood estimation; Packet radio networks; Signal to noise ratio; Turbo codes;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
