Automated Process for Optimal Structural Notch-Filter Design | Zendy

G. K. Singh | Zendy; Girish Deodhare | Zendy; Vijay Patel | Zendy; Shyam Chetty | Zendy

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Automated Process for Optimal Structural Notch-Filter Design

Author(s) -

G. K. Singh,

Girish Deodhare,

Vijay Patel,

Shyam Chetty

Publication year - 2008

Publication title -

journal of guidance control and dynamics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.573

H-Index - 143

eISSN - 1533-3884

pISSN - 0731-5090

DOI - 10.2514/1.36767

Subject(s) - band stop filter , process (computing) , computer science , control theory (sociology) , filter (signal processing) , control engineering , engineering , artificial intelligence , computer vision , low pass filter , programming language , control (management)

Nomenclature C, Cij = controller transfer function, i, j element of C de, da, dr = elevator, aileron, and rudder surface deflections Fk = kth second-order filter section fs = sampling frequency mx = variable magnitude for sensor x Nz, Ny = normal, lateral acceleration P, Pij = plant transfer function, i, j element of P p, q, r = roll, pitch, and yaw rates w, wc = frequency variable, critical frequency wx = weight factor for sensor x Xenv = envelope for sensor X XF, XNF = filter (notch filter) for sensor X n, d = damping of the numerator/denominator !n, !d = natural frequency of the numerator/denominator

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