1 "http://en.wikipedia.org/wiki/Linear_system."
2 T. Wigren, "User choices and model validation in system identification using nonlinear Wiener models" The Netherlands 27-29, 2003
3 J.Y. Choi, "System identification of power converters based on a black-box approach" 45 : 1148-, 1998
4 Lennart Ljung, "System Identification: Theory for the User" Prentice Hall PTR 1999
5 Lennart Ljung, "System Identification Toolbox User’ Guide"
6 Mummadi Veerachary, "Signal flow graph modelling of interleaved buck converters" 31 (31): 249-264,
7 Guven Onbilgin, "Sampling Theory in Signal and Image Processing. in: Modeling of Power Electronics Circuits Using Wavelet Theory" 2007
8 B. Johansson, "Possibilities of obtaining small-signal models of DC– DC power converters by means of system identification" 65-, 2000
9 J.C. Hernández, "Optimal allocation and sizing for profitability and voltage enhancement of PV systems on feeders" 32 (32): 1768-1789, 2007
10 F. Alonge, "Nonlinear modeling of DC/DC converters using the Hammerstein’s approach" 22 (22): 1210-1221, 2007
1 "http://en.wikipedia.org/wiki/Linear_system."
2 T. Wigren, "User choices and model validation in system identification using nonlinear Wiener models" The Netherlands 27-29, 2003
3 J.Y. Choi, "System identification of power converters based on a black-box approach" 45 : 1148-, 1998
4 Lennart Ljung, "System Identification: Theory for the User" Prentice Hall PTR 1999
5 Lennart Ljung, "System Identification Toolbox User’ Guide"
6 Mummadi Veerachary, "Signal flow graph modelling of interleaved buck converters" 31 (31): 249-264,
7 Guven Onbilgin, "Sampling Theory in Signal and Image Processing. in: Modeling of Power Electronics Circuits Using Wavelet Theory" 2007
8 B. Johansson, "Possibilities of obtaining small-signal models of DC– DC power converters by means of system identification" 65-, 2000
9 J.C. Hernández, "Optimal allocation and sizing for profitability and voltage enhancement of PV systems on feeders" 32 (32): 1768-1789, 2007
10 F. Alonge, "Nonlinear modeling of DC/DC converters using the Hammerstein’s approach" 22 (22): 1210-1221, 2007
11 K.T. Chau, "Nonlinear identification of power electronics systems" 1 : 329-, 1995
12 J. Sjoberg, "Nonlinear black-box modeling in system identification: a unified overview" 31 (31): 1995
13 R.E. Araujo, "Modelling and simulation of power electronic systems using a bond formalism" Lisbon, Portugal 9-12, 2002
14 D. Maksimovic, "Modeling and simulation of power electronic converters" 89 : 898-, 2001
15 T. Geyer, "Model predictive control in power electronics: a hybrid systems approach" 2005
16 Wilhelmus H.A. Schilders, "Model Order Reduction: Theory, Research Aspects and Applications" 2008
17 F. Guo, "Identification of cascade Wiener and Hammerstein systems" Marbella, Spain, 2003
18 M.N. Eskander, "Identification and control of resonant switch mode converters using neural networks" 2001
19 F.O. Resende, "Development of dynamic equivalents for microgrids using system identification theory" 1033-1038, 2007
20 Chi. Kong Tse, "Complex Behavior of Switching Power Converters" CRC Press 2004
21 T. Hatanaka, "Block oriented nonlinear model identification by evolutionary computation approach" 1 (1): 43-48, 2003
22 Dalibor Biolek, "Averaged modeling of switched DC–DC converters based on spice models of semiconductor switches" Tenerife, Canary Islands 162-167,
23 R.D. Middlebrook, "A general unified approach to modeling switching converter power stages" 42 : 521-, 1977
24 R. Sedlacek, "A bond graph approach to the modeling and simulation of switch regulated DC-to-DC power supplies" 6 (6): 631-646, 1998