## Fundamentals of Engineering Cybernetics |

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### Contents

INTRODUCTION | 1 |

Trends in engineering cybernetics | 2 |

Feedback | 4 |

Copyright | |

47 other sections not shown

### Common terms and phrases

amplifier amplitude autocorrelation function automatic-control systems battery bias voltage bilateral Laplace transform binary number bit numbers circuit in Figure computing constant continuous signal correlation functions current-voltage characteristic curve cybernetic systems derivative describing function determined device differential digits diode voltage discrete discrete signal engineering cybernetics entropy equal equation example extremal variable extremum feedback follows frequency fuel gate given impulse time response increases input signal Inserting integral interval Laplace transform Let us consider linear logic elements logical operation magnetic amplifier matrix maximum mean square error method motor mutually exclusive events noise nonlinear element number of diodes obtain occur optimum output signal output voltage probability proposition random event random function random variable relay represented resistor reversed shown in Figure signal is produced signal is received simultaneously spectral power density subtraction switch symbols tion transfer function transistor tunnel diode twin circuit unit valve zero