Journal of the Franklin Institute, Volume 339Pergamon Press, 2002 Vols. 1-69 include more or less complete patent reports of the U. S. Patent Office for years 1825-1859. cf. Index to v. 1-120 of the Journal, p. [415] |
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Page 168
... matrices of y ( k ) , x ( k ) , w ( k ) and r ( k ) , respectively , o denotes variance of w ( k ) and matrix H is the convolution matrix corresponding to ĥ . Given ĥ , στ , σε and matrix P , the MSE can be computed via Eqs . ( 10 ) ...
... matrices of y ( k ) , x ( k ) , w ( k ) and r ( k ) , respectively , o denotes variance of w ( k ) and matrix H is the convolution matrix corresponding to ĥ . Given ĥ , στ , σε and matrix P , the MSE can be computed via Eqs . ( 10 ) ...
Page 169
... matrix P , = TTT is near optimal . However , the true cumulant matrix is unknown and the only way one can apply this idea is by using third - order cumulant estimates obtained as N Cn , y = Σ . N i = 1 ( 28 ) Unfortunately , as it was ...
... matrix P , = TTT is near optimal . However , the true cumulant matrix is unknown and the only way one can apply this idea is by using third - order cumulant estimates obtained as N Cn , y = Σ . N i = 1 ( 28 ) Unfortunately , as it was ...
Page 419
... matrix G is fixed , the additional freedom in choosing the decoding matrix L can be used to our advantage . For example , if faults are permanent , we can reconfigure the decoding matrix to L = [ 0 , 0 ] when the first system fails ...
... matrix G is fixed , the additional freedom in choosing the decoding matrix L can be used to our advantage . For example , if faults are permanent , we can reconfigure the decoding matrix to L = [ 0 , 0 ] when the first system fails ...
Contents
Contents | 1 |
Vol 339 No 2 MARCH 2002 | 129 |
E PERGAMON ISSN 00160032 | 248 |
Copyright | |
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2002 The Franklin actuator adaptive algorithm angiostatin applied approach Award Benjamin Franklin Medal Chebyshev computation congruence relation corresponding coset coset leader defined denote detection dynamic systems Elsevier Science Ltd encoding energy equation error estimation example fault fault-tolerant feedback finite Franklin Institute Franklin Institute 339 frequency response frequency response functions given group machine homomorphism IEEE IEEE Trans implementation input inverse controller Judah Folkman linear systems mapping matrix method Minsky nodes noise nomograph nonlinear systems observer obtained optimal control optimal control problem output packet paleomagnetic paper parameters Paul Baran performance Petri Petri net phase PID controller polynomials proposed pseudoinverse Published by Elsevier redundant residual ScienceDirect semiautomata semigroup shown in Fig signal processing simulation solution stability subgroup switching TDTL Theorem time-delay trajectories transfer function transform transitional filter tumor University variables vector Widrow zero