Title :
Error probability of coherent detection for trellis-coded partial response CPM on Rician fading channels
Author :
Yiin, Lihbor ; Stüber, Gordon L.
Author_Institution :
Sch. of Electr. & Comput. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
fDate :
5/1/1996 12:00:00 AM
Abstract :
Trellis-coded continuous phase modulation (TC-CPM) schemes are attractive for bandwidth and power limited communication systems such as mobile satellite communications and land mobile radio communications. A coherent receiver for interleaved partial response TC-CPM is derived. A true upper bound on the bit error probability for flat fading channels is derived by showing that TC-CPM is equivalent to a trellis-coded modulation scheme. The upper bound is evaluated by defining an error-state diagram along with a set of characteristic distances and then applying transfer function bounding techniques. Comparison with simulation results shows the upper bound tight to within 1.5-2 dB
Keywords :
Rician channels; coding errors; continuous phase modulation; error statistics; fading; land mobile radio; mobile satellite communication; partial response channels; probability; radio receivers; signal detection; transfer functions; trellis coded modulation; Rician fading channels; TC-CPM; bandwidth limited communication systems; bit error probability; characteristic distances; coherent detection; coherent receiver; error state diagram; flat fading channels; interleaved partial response; land mobile radio communications; mobile satellite communications; power limited communication systems; simulation results; transfer function bounding techniques; trellis-coded modulation; trellis-coded partial response CPM; upper bound; Bandwidth; Continuous phase modulation; Error probability; Fading; Land mobile radio; Mobile communication; Receivers; Satellite communication; Transfer functions; Upper bound;
Journal_Title :
Vehicular Technology, IEEE Transactions on
