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IETE Journal of Research Volume 28, 1982 - Issue 9
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Original Articles

Determination of Multivariable Positive-Real Function from Its Given Real Part Using State-Variable Technique

J.S. SohalDepartment of Electrical Engineering, Punjab Agricultural University, Ludhiana141 004.
(Member)
Pages 443-446 | Received 10 Oct 1980, Published online: 10 Jul 2015

REFERENCES

  • Lal (M) & Singh (H). Determination of Impedance Matrix Z(s). given Z(s) +Z' (-s), Using a State Variable Technique. IEEE Trans. CT-19, 1972; 80–81.
  • Puri (S), Singh (H) & Lal (M). Determination of Impedance Matrix Z (s) From the Given (s) + Z'(-s). IEEE Trans. CAS-21, 1974; 458–459.
  • Ramachandran (V) & Rao (A S), The Real Part of a Multivariable Positive Real Function and Some Applications. IEEE Trans. CAS-21, 1974; 598–605.
  • Anderson (B D) & Vongpanitilerd (S). Reciprocal Passive Impedance Synthesis via State Space Technique. Proc. Hawai International Conference on System Science 1969; 171–174.
  • Anderson (B D O). A System Theory criterion for positive real matrices. SIAM Journal on Control 1967; 5; 2; 17–182.
  • Anderson (B D O) & Vongpanitilerd (S). Network Analysis and Synthesis: A Modern Systems Theory Approach. Prentice-Hall 1973; 267–306.
  • Newcomb (R W). On the Realization of Multivariable Transfer Functions Res. Rept. EERL 58. Cornell University, Ithaca, New York 1966.
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  • Ozaki (H) & Rasami (T). Positive Real Functions of Several Variables and Their Applications to Variable Networks. IRE Trans CT-7, 1960; 251–260.
  • Koga (T). Synthesis of Finite Passive-n Ports with Prescribed Positive Real Matrices of Several Variables. IEEE Trans. CT-15. 1960; 2–23.
  • Koga (T). Synthesis of Passive n-Ports with Prescribed Two Variable Reactance Matrices. IEEE Trans. CT-13, 1966; 31–51.
  • Sohal (J S) & Singh (H). Sub-optimal Realization of Multivariable Transfer Function Matrices. Proc. All India Symp. Agni. System Theory and Research. Centre of Advanced Studies in Agricultural Engineering (UNDP), PAU, Ludhiana. 1976; 99–104.

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