Mousumi Mitra
- Buss, 1988.A. It. Buss. Some extensions and limitations of frequency domain experiments. In 1988 Winter Simulation Conference Proceedings, pages 549-557, 1988. Google Scholar
Digital Library
- Hardin, 1986.j. C. Hardin. Introduction to Time Series Analysis. NASA Reference Publication 1145, March 1986.Google Scholar
- Jacobson et al, 1987.S. H. Jacobson, A. Buss, and L.W. Schruben. Driving frequency selection for frequency domain simulation experiments. Technical Report 714, School of Operations Research and industrial Engg., Cornell University, September 1987.Google Scholar
- Jacobson et al, 1988.S.H. Jacobson, D. Morrice, and L.W. Schruben. The global simulation clock as the frequency domain experiment index. In 1988 Winter Simulation Conference Proceedings, pages 558-563, 1988. Google ScholarDigital Library
- Jacobson, 1989.S. H. Jacobson. Oscillation amplitude considerations in frequency domain experiments. In 1989 Win~er Simulation Conference Proceedings, pages 406-410, 1989. Google ScholarDigital Library
- Jacobson, 1990.S.H. Jacobson. Input/output model extension for gradient estimation on the frequency domain. In 29th. TIMS/ORSA Joint National Meeting, Las Vegas, 1990.Google Scholar
- Law and Kelton, 1982.A. M. Law and W. D. Kelton. Simulation Modeling and Analysis. McGraw- Hill Book Company, 1982. Google ScholarDigital Library
- Morrice and Schruben, 1989.D. J. Morrice and L. W. Schruben. Simulation sensitivity analysis using frequency domain experiments. In 1989 Winter Simulation Conference Proceedings, pages 367-363, 1989. Google ScholarDigital Library
- Sanchez and Buss, 1987.P.J. Sanchez and A. It. Buss. A model for frequency domain experiments. In 1987 Winter Simulation Conference Proceedings, pages 424-427, 1987. Google ScholarDigital Library
- Sanchez and Schruben, 1986.P. J. Sanchez and L. W. Schruben. Simulation factor screening using frequency domain methods: An illustrative example. Submitted for publication, 1986.Google Scholar
- Sargent and Som, 1988.R. G. Sargent and T. K. Som. A different view of frequency domain experiments. Working Papar 88-01, Syracuse University, 1988.Google Scholar
- Schruben and Cogliano, 1981.L. W. Schruben and V. J. Cogliano. Simulation sensitivity analysis : A frequency domain approach. In 1981 Winter Simulation Conference Proceedings, pages 455-459, 1981. Google ScholarDigital Library
- Schruben and Cogliano, 1987.L. W. Schruben and V. J. Cogliano. An experimental procedure for simulation response surface model identification. Communications of the A CM, 30(8):716-730, August 1987. Google ScholarDigital Library
- Schruben, 1986.L. W Schruben. Simulation optimization using frequency domain methods. In 1986 Winter Simulation Conference Proceedings, pages 366-369, 1986. Google ScholarDigital Library
- Som and Sargent, 1988.T.K. Som and R.G. Sargent. Alternate methods for generating and analyzing the output series of frequency domain experiments, in 1988 Winter Simulation Conference Proceedings, pages 564-567, 1988. Google ScholarDigital Library
- Som et al, 1987.T.K. Som, R.G. Sargent, and L.W. Sehruben. Frequency domain modeling of a feedback queue. In 1987 Winter Simulation Conference Proceedings, pages 419-423, 1987. Google ScholarDigital Library
Index Terms
- Solution to the indexing problem of frequency domain simulation experiments
Recommendations
Time-domain simulation of multiconductor transmission lines with frequency-dependent losses
A method for the time-domain simulation of multiconductor transmission lines with frequency-dependent conductor (skin effect) and dielectric losses is presented. The method is based on a traveling-wave solution of the transmission line equations in the ...
Time and Frequency Domain Simulation, Measurement and Optimization of Log-Periodic Antennas
Log-periodic antenna is a special antenna type utilized with great success in many broadband applications due to its ability to achieve nearly constant gain over a wide frequency range. Such antennas are extensively used in electromagnetic compatibility ...
Efficient time-domain simulation of frequency-dependent elements
ICCAD '96: Proceedings of the 1996 IEEE/ACM international conference on Computer-aided designWe describe an efficient algorithm for the time-domain simulation of elements described by causal impulse responses. The computational bottleneck in the simulation of such elements is the need to compute convolutions at each time point. Hence, direct ...
Comments