Abstract
In this chapter we investigate implementation aspects of different CPM modulators. Only CPM schemes with fixed modulation index h are considered. Thus multi-h schemes and coded phase modulation are not considered, but it is straightforward to generalize the transmitters that we discuss. We will first give some general structures and then discuss the practical implementation aspects of each with a few special cases in mind. More details on this subject are in the study reports in Refs. [1 and 2].
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References
T. Aulin, B. Persson, N. Rydbeck, and C-E. Sundberg, “Spectrally-Efficient Constant-Amplitude Digital Modulation Schemes for Communication Satellite Applications, ” May 1982. Study Report, European Space Agency—ESTEC, contract No. 4765/81/NL/MD, Vol. I and Vol. II. In part published in Conference Record, The Sixth International Conference on Digital Satellite Communications, Phoenix, Arizona, September 1983.
D. Muilwijk and J. H. Schadé, “Correlative Phase Modulation for Fixed Satellite Services, ” January 1983, Study Report ESTEC 4485/80/NL/MS, Philips Telecommunicatie Industrie B.V., Hilversum, The Netherlands.
F. de Jager and C. B. Dekker, “Tamed Frequency Modulation, A Novel Method to Achieve Spectrum Economy in Digital Transmission,” IEEE Transactions on Communications COM-26(5), 534–542 (1978).
T. Aulin, N. Rydbeck, and C-E. Sundberg, “Continuous Phase Modulation (CPM) Part II, Partial Response Signalling,” IEEE Communication Transactions COM-29, 210–225 (1981).
T. Aulin and C-E. Sundberg, “Autocorrelation Functions and Power Spectral Densities for Bandpass Filtered and Hard-limited Continuous Phase Modulation, ” ICC’82, Conference Record, pp. 6F6.1-6F6.5.
K. Honma, E. Murate, and Y. Rikou, “On a Method of Constant Envelope Modulation for Digital Mobile Radio Communication, ” ICC’80, Conference Record, pp. 24.1.1-24.1.5.
S. A. Rhodes, “FSOQ, A New Modulation Method that yields a Constant Envelope, ” NTC’80, Conference Record, pp. 51.1.1-5.1.17.
F. Amoroso and J. A. Kivett, “Simplified MSK Signalling Technique,” IEEE Transactions on Communications COM-25, 441–443 (1977).
F. Amoroso, “Experimental Results on Constant Envelope Signalling with Reduced Sidelobes, ” ICC’81, Conference Record, pp. 47.1-47.1.5.
C. R. Ryan, “Advances in Serial MSK Modems, ” NTC’81, Conference Record, pp. G3.6.1-G3.6.5.
T. Aulin, N. Rydbeck and C-E. Sundberg, “Transmitter Receiver Structures for M-ary Partial “Transmitter and Receiver Structures for M-ary Partial Response FM, ” 1980 International Zürich Seminar on Digital Communications, March 4–6, 1980, Conference Record, pp. A.2.1-A.2.6.
F. Gardner, Phaselock Techniques, 2nd Edition, Wiley, New York (1979).
W. C. Lindsey and M. K. Simon, Telecommunications System Engineering, Prentice-Hall, Englewood Cliffs, New Jersey (1973).
C. R. Ryan, A. R. Hambley, and D. E. Vogt, “760 Mbit/s Serial MSK Microwave Modem,” IEEE Transactions on Communications COM-28(5), 771–777 (1980).
C-E. Sundberg and A. Svensson, “Parallel and Serial MSK-type Detection of Partial Response Continuous Phase Modulation, ” Mediterranean Electrotechnical Conference, MELECON’83, Athens, Greece, May 1983, Conference Record, paper B8-01.
A. Svensson and C-E. Sundberg, “Serial MSK-type Detection of Partial Response Continuous Phase Modulation,” IEEE Transactions on Communications COM-33, (1), 44–52 (1985).
R-E. Ziemer, C. R. Ryan and J. H. Stilwell, “Conversion and Matched Filter Approximations for Serial Minimium Shift Keyed Modulation,” IEEE Transactions on Communications COM-30(3), 495–509 (1982).
R. E. Ziemer and C. R. Ryan, “Minimum-Shift Keyed Modem Implementations for High Data Rates,” IEEE Communications Magazine 21(7), 28–37 (1983).
D. Duponteil, “Binary Modulations for Digital Satellite Communictions Link with Differential Demodulation, ” Fifth International Conference on Digital Satellite Communications, Genoa, Italy, March 1981, Conference Record, pp. 89-98.
V. K. Bhargava, D. Haccoun, R. Matyas, and P. Nuspl, Digital Communications by Satellite Modulation, Multiple Access and Coding, Wiley, New York (1981).
S. Pasupathy, “Minimum Shift Keying: A Spectrally Efficient Modulation,” IEEE Communications Magazine 17, 14–22 (1979).
F. Amoroso, “The Bandwidth of Digital Data Signals,” IEEE Communications Magazine 18, 13–24 (1980).
J. J. Spilker Jr., Digital Communications by Satellite, Prentice-Hall, Englewood Cliffs, New Jersey (1977).
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Anderson, J.B., Aulin, T., Sundberg, CE. (1986). Transmitters. In: Digital Phase Modulation. Applications of Communications Theory. Springer, Boston, MA. https://doi.org/10.1007/978-1-4899-2031-7_6
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DOI: https://doi.org/10.1007/978-1-4899-2031-7_6
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