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Electronics --- 621.375 --- #KVIV --- Electrical engineering --- Physical sciences --- Amplifiers --- Electronics. --- 621.375 Amplifiers --- Électricité --- Systèmes échantillonnés --- Électronique --- 621.37 --- 621.37 Technique of electric waves, electromagnetic waves, oscillations, pulses --- Technique of electric waves, electromagnetic waves, oscillations, pulses --- Électricité. --- Systèmes échantillonnés. --- Électronique.
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Z transformations --- Z transformation --- Transformation, Z --- Laplace transformation --- Z transformation. --- Control theory --- Commande, Théorie de la --- Discrete-time systems --- Systèmes échantillonnés --- Control theory. --- Commande, Théorie de la --- Systèmes échantillonnés --- Theorie du signal --- Transformations integrales
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Delta modulation --- 621.376 --- Pulse-code modulation --- Modulation and demodulation. Processes and apparatus --- Delta modulation. --- 621.376 Modulation and demodulation. Processes and apparatus --- Systèmes, Conception de --- System design --- Information theory. --- Systèmes échantillonnés
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Electric filters, Digital --- Signal processing --- Filtres numériques --- Traitement du signal --- Digital techniques --- Techniques numériques --- Filtres numériques --- Techniques numériques --- Digital electric filters --- Filters, Digital electric --- Digital electronics --- Digital filters (Mathematics) --- Digital signal processing --- Digital communications --- Information theory. --- Systèmes échantillonnés --- Télécommunications --- Systèmes échantillonnés --- Télécommunications --- Circuits actifs
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Signal processing --- Traitement du signal --- 621.391 --- 621.39 --- 681.5 --- Signaalverwerking --- Telecommunicatietechniek --- Processing, Signal --- Information measurement --- Signal theory (Telecommunication) --- General questions of electrical communication engineering. Cybernetics. Information theory. Signal theory --- 621.391 General questions of electrical communication engineering. Cybernetics. Information theory. Signal theory --- Information theory. --- Systèmes échantillonnés --- Télécommunications --- Systèmes échantillonnés --- Télécommunications --- Circuits actifs
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Automatic control --- Discrete-time systems. --- Automatic control. --- Systèmes échantillonnés --- Systèmes échantillonnés --- Discrete-time systems --- #TELE:SISTA --- DES (System analysis) --- Discrete event systems --- Sampled-data systems --- Digital control systems --- System analysis --- Linear time invariant systems --- Control engineering --- Control equipment --- Control theory --- Engineering instruments --- Automation --- Programmable controllers --- Commande automatique --- Discrete mathematics
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Adaptive control systems --- Discrete-time systems --- Systemes adaptatifs --- Systemes echantillonnes --- Systèmes adaptatifs --- Systèmes échantillonnés --- DES (System analysis) --- Discrete event systems --- Sampled-data systems --- Self-adaptive control systems --- Digital control systems --- System analysis --- Linear time invariant systems --- Artificial intelligence --- Feedback control systems --- Self-organizing systems --- Discrete mathematics --- Engineering --- Information Technology --- Mechanical Engineering --- Modelling & Simulation
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Mathematical statistics --- Simulation methods --- Discrete-time systems --- Simulation, Méthodes de --- Systèmes échantillonnés --- 519.245 --- Simulation techniques --- System simulation --- Operations research --- Systems engineering --- Models and modelmaking --- DES (System analysis) --- Discrete event systems --- Sampled-data systems --- Digital control systems --- System analysis --- Linear time invariant systems --- Stochastic approximation. Monte Carlo methods --- Discrete-time systems. --- Simulation methods. --- Méthodes de simulation --- 519.245 Stochastic approximation. Monte Carlo methods --- Méthodes de simulation --- Systèmes échantillonnés --- Discrete mathematics
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Numerical solutions of differential equations --- Electronics --- Computer architecture. Operating systems --- Fourier transformations --- Electric filters, Digital --- 621.3.011.7 --- filters --- Fouriertransformatie --- Transformations, Fourier --- Transforms, Fourier --- Fourier analysis --- Transformations (Mathematics) --- Digital electric filters --- Filters, Digital electric --- Digital electronics --- Digital filters (Mathematics) --- Signal processing --- Fundamental properties of active or passive networks. Network theory, analysis, synthesis. Fundamental formulae, quantities, properties --- Digital techniques --- 621.3.011.7 Fundamental properties of active or passive networks. Network theory, analysis, synthesis. Fundamental formulae, quantities, properties --- Information theory. --- Systèmes échantillonnés
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These twenty lectures have been developed and refined by Professor Siebert during the more than two decades he has been teaching introductory Signals and Systems courses at MIT. The lectures are designed to pursue a variety of goals in parallel: to familiarize students with the properties of a fundamental set of analytical tools; to show how these tools can be applied to help understand many important concepts and devices in modern communication and control engineering practice; to explore some of the mathematical issues behind the powers and limitations of these tools; and to begin the development of the vocabulary and grammar, common images and metaphors, of a general language of signal and system theory.Although broadly organized as a series of lectures, many more topics and examples (as well as a large set of unusual problems and laboratory exercises) are included in the book than would be presented orally. Extensive use is made throughout of knowledge acquired in early courses in elementary electrical and electronic circuits and differential equations.Contents: Review of the "classical" formulation and solution of dynamic equations for simple electrical circuits; The unilateral Laplace transform and its applications; System functions; Poles and zeros; Interconnected systems and feedback; The dynamics of feedback systems; Discrete-time signals and linear difference equations; The unilateral Z-transform and its applications; The unit-sample response and discrete-time convolution; Convolutional representations of continuous-time systems; Impulses and the superposition integral; Frequency-domain methods for general LTI systems; Fourier series; Fourier transforms and Fourier's theorem; Sampling in time and frequency; Filters, real and ideal; Duration, rise-time and bandwidth relationships: The uncertainty principle; Bandpass operations and analog communication systems; Fourier transforms in discrete-time systems; Random Signals; Modern communication systems.William Siebert is Ford Professor of Engineering at MIT. Circuits, Signals, and Systems is included in The MIT Press Series in Electrical Engineering and Computer Science, copublished with McGraw-Hill.
Electric circuits --- Discrete-time systems --- Linear time invariant systems --- Circuits électriques --- Systèmes échantillonnés --- Systèmes linéaires invariants dans le temps --- #TELE:SISTA --- Systems, Linear time invariant --- Linear systems --- Circuits, Electric --- Electric lines --- DES (System analysis) --- Discrete event systems --- Sampled-data systems --- Digital control systems --- System analysis --- Discrete-time systems. --- Electric circuits. --- Linear time invariant systems. --- Circuits électriques --- Systèmes échantillonnés --- Systèmes linéaires invariants dans le temps --- Discrete mathematics --- COMPUTER SCIENCE/General
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