Title :
Continuous phase quadrature phase shift keyed signaling technique with coding
Author :
Kuh, Steve S. ; Strozier, Tyrone A. ; Ryan, Carl R.
Author_Institution :
Aerosp. Corp. Electron. & Opt. Div., Los Angeles, CA, USA
fDate :
12/1/1989 12:00:00 AM
Abstract :
A continuous phase quadrature phase shift keyed (CPQPSK) modulation technique is presented. This method utilizes a conventional QPSK modulator and a phase trajectory converter to approximate M=4, h=1/4 continuous phase signal and allows low cost, low complexity, and high rate (>1 Gbit/s) CPM modem implementation for bandwidth efficient transmission through nonlinear satellite channels. Using a communications analysis computer program it has been found that CPQPSK has 99 percent out-of-band power of 0.8R (MSK has 99 percent out-of-band power of 1.2 R where R is defined as bit rate), continuous phase trajectories, and nearly constant envelope amplitude. Simulation of realistic hardware designs indicate that the CPQPSK will require an Eb/No of 14 dB to achieve a bit error rate (BER) of 10-6. Forward error correcting techniques using block codes with an overhead of 10 percent indicate that the Eb/No requirements can be reduced to 11.2 dB for 10-6 BER
Keywords :
encoding; error correction codes; phase shift keying; BER; CPM modem implementation; CPQPSK; bandwidth efficient transmission; bit error rate; block codes; coding; constant envelope amplitude; continuous phase modulation; continuous phase quadrature phase shift keyed; conventional QPSK modulator; forward error correction; modulation; nonlinear satellite channels; out-of-band power; phase trajectory converter; signaling technique; Bandwidth; Bit error rate; Bit rate; Computational modeling; Continuous phase modulation; Costs; Hardware; Modems; Quadrature phase shift keying; Satellites;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
