TY - GEN
T1 - Graphical demonstration of the coherent demodulation of GMSK
AU - Peh, Ho Huat
AU - Tjhung, Tjeng Thiang
AU - Adachi, Fumiyuki
AU - Quek, Tony Quee Seng
PY - 2010
Y1 - 2010
N2 - In this paper, we demonstrate through graphical means the coherent demodulation of Gaussian Minimum-Shift-Keying (GMSK) that is made possible because the pulses after the Gaussian lowpass filter retain the unit area such that the phase deviation has the π/2 value. Although it is straightforward to show analytically that the MSK waveform can be split into two antipodal pulse streams modulating an in-phase and quadrature carriers, so that coherent demodulation can be applicable, it is not the case with GMSK, because the modulating signal consists of overlapping pulses with analytically intractable Q function describing the pulse shape. By computing the access phase function θ(t) and plotting cos θ(t) and sin θ(t), we can see that the plots of cos θ(t) and sin θ(t) for GMSK retain the synchronized and staggered nature of those of MSK, suggesting the possibility of coherent demodulation as in MSK. We then show a simple way to compute the bit error probability of GMSK for a few values of the Gaussian lowpass filter bandwidth.
AB - In this paper, we demonstrate through graphical means the coherent demodulation of Gaussian Minimum-Shift-Keying (GMSK) that is made possible because the pulses after the Gaussian lowpass filter retain the unit area such that the phase deviation has the π/2 value. Although it is straightforward to show analytically that the MSK waveform can be split into two antipodal pulse streams modulating an in-phase and quadrature carriers, so that coherent demodulation can be applicable, it is not the case with GMSK, because the modulating signal consists of overlapping pulses with analytically intractable Q function describing the pulse shape. By computing the access phase function θ(t) and plotting cos θ(t) and sin θ(t), we can see that the plots of cos θ(t) and sin θ(t) for GMSK retain the synchronized and staggered nature of those of MSK, suggesting the possibility of coherent demodulation as in MSK. We then show a simple way to compute the bit error probability of GMSK for a few values of the Gaussian lowpass filter bandwidth.
KW - Bit error probability
KW - Coherent demodulation
KW - GMSK
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U2 - 10.1109/ICCE.2010.5670671
DO - 10.1109/ICCE.2010.5670671
M3 - Conference contribution
AN - SCOPUS:78751553145
SN - 9781424470587
T3 - ICCE 2010 - 3rd International Conference on Communications and Electronics
SP - 1
EP - 5
BT - ICCE 2010 - 3rd International Conference on Communications and Electronics
T2 - 3rd International Conference on Communications and Electronics, ICCE 2010
Y2 - 11 August 2010 through 13 August 2010
ER -