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Derivation of the Kalman Gain Equation For the No System Response Design Using Variable Sampling 71
A Fault Location Strategy Using The Similar Dependence 10 Modeling of StochasticDeterministic Mixed Signals Using
An Algorithmic Relationship Between the Cutting Force 18
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3dof algorithm analysis analyzed application array assembly line assumed average buffer C-L M-R canal channel chip circuit coefficients component conand crosspoint faults cutting force deaerator deconvolutlon defined developed disk I/O dynamic effect Engineering equation error estimation expert system fault coverage filter finite element flow frequency function Green's function hotwell hydraulic hydraulic head IEEE IEEE Trans input iterations Kalman gain Line Balancing linear load loop loss function machining machining cell mathematics matrix method multipulse noise non-computer nonlinear obtained one-path module operands operation optimal output paper parameters performance pinouts Pipe plant problem Putnam model Qalabla response robot sampling shown in Figure signal simulation solution specific strategy structure stuck-at fault surface systolic array techniques tion transfer function two-port network values variable vector velocity VLSI workplace yield