Partial response continuous phase modulation and DPCM coding for speech transmission in cellular mobile radio systems

The performance of a speech transmission scheme with application to cellular digital mobile radio systems is considered. The source coder is embedded differential pulse code modulation (DPCM) and the modulation schemes belong to the class of partial response continuous phase modulation (CPM). Both quantizing noise and transmission errors contribute to the overall mean square error. The performance measure is the audio signal-to-noise ratio (SNR). It is seen that in a fading environment space diversity is very effective in bringing down the threshold of channel SNR to maintain the required audio SNR. The number of channels the system can support is evaluated under various conditions.

[1]  Arne Svensson,et al.  MSK-Type Receivers for Partial Response Continuous Phase Modulation , 1982 .

[2]  R. de Buda,et al.  Coherent Demodulation of Frequency-Shift Keying with Low Deviation Ratio , 1972, IEEE Trans. Commun..

[3]  D. J. Goodman,et al.  Transmission errors and forward error correction in embedded Differential Pulse Code Modulation , 1983, The Bell System Technical Journal.

[4]  T. Aulin,et al.  Continuous Phase Modulation - Part II: Partial Response Signaling , 1981, IEEE Transactions on Communications.

[5]  Someshwar C. Gupta,et al.  Error Performance of Partial Response CPM in the Presence of Adjacent Channel Interference and Gaussian Noise , 1986, ICC.

[6]  Yu-Shuan Yeh,et al.  Efficient Spectrum Utilization for Mobile Radio Systems Using Space Diversity , 1982, IEEE Trans. Commun..

[7]  S.C. Gupta,et al.  Adjacent channel interference in partial response continuous phase modulation systems with MSK-type receivers , 1986, 36th IEEE Vehicular Technology Conference.

[8]  D. J. Goodman,et al.  Combined source and channel coding for variable-bit-rate speech transmission , 1983, The Bell System Technical Journal.

[9]  C.-E. Sundberg,et al.  On continuous phase modulation in cellular digital mobile radio systems , 1983, The Bell System Technical Journal.

[10]  F. Jager,et al.  Tamed Frequency Modulation, A Novel Method to Achieve Spectrum Economy in Digital Transmission , 1978, IEEE Trans. Commun..

[11]  C.-E. Sundberg Error probability of partial-response continuous-phase modulation with coherent MSK-type receiver, diversity, and slow Rayleigh fading in Gaussian noise , 1982, The Bell System Technical Journal.

[12]  T. Aulin,et al.  Continuous Phase Modulation - Part I: Full Response Signaling , 1981, IEEE Transactions on Communications.

[13]  P. S. Henry,et al.  A new approach to high-capacity digital mobile Radio , 1981, The Bell System Technical Journal.