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Bruit --- Lutte contre --- Droit.
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Fractals. --- Multifractals. --- Electronic noise. --- Fractales --- Multifractales --- Bruit électronique
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Airplanes --- Airport noise --- Avions --- Aéroports --- Noise --- Social aspects --- Social aspects --- Bruit --- Aspect social --- Bruit --- Aspect social
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DROIT CIVIL COMPARE --- CIRCULATION AERIENNE --- POLLUTION --- POLLUTION --- RESPONSABILITE CIVILE DELICTUELLE --- DOMMAGES --- AEROPORTS --- BRUIT
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Acoustique appliquée. --- Bruit, lutte contre le --- Habitations --- Acoustique architecturale. --- Isolation acoustique. --- Acoustique appliquée --- Habitat --- Législation
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Electronic circuits --- Electromagnetic interference --- Electronic circuit design --- Shielding (Electricity) --- Circuits électroniques --- Brouillage électromagnétique --- Circuits électroniques --- Blindage (Electricité) --- Noise --- Bruit --- Calcul
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L'écoute est peut-être l'activité la plus discrète qui soit. C'est à peine une activité : une passivité, dit-on, une manière d'être affecté qui semble vouée à passer inaperçue. Quelqu'un qui écoute, ça ne s'entend pas. J'ai pourtant rêvé d'une archéologie de nos écoutes musicales : une histoire de nos oreilles de mélomanes, de maniaques de mélodies en tout genre. J'ai voulu savoir d'où elles me venaient, ces oreilles que je porte et que je prête. Quel était leur âge ? Que devais-je, que pouvais-je faire avec elles ? De qui les tenais-je, à qui en étais-je redevable ? J'ai donc traqué tous les indices possibles." Peter Szendy. Dans ce livre, Peter Szendy pose une question fondamentale : Comment partager notre propre écoute. En effet, nous sommes auteurs de notre écoute. Elle nous appartient suivant l'histoire de nos oreilles. Alors comment faire partager ce que l'on entend à d'autres oreilles, vu que chacun perçoit différemment une musique, un son. Cette question est très pertinente. Il tente d'y répondre tout au long de cet essai http://www.levidepoches.fr/cequejecoute/2008/11/peter-szendy-ec.html
Music --- Musical criticism. --- Musique --- Critique musicale --- Philosophy and aesthetics. --- History and criticism. --- Philosophie et esthétique --- Histoire et critique --- Musicology --- Philosophie et esthétique --- Music - Philosophy and aesthetics --- Music - History and criticism --- Musical criticism --- Bruit --- Communication --- Philosophie --- Psychanalyse --- Psychologie --- Sémiologie --- Son
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Wavelet methods have become a widely spread tool in signal and image process ing tasks. This book deals with statistical applications, especially wavelet based smoothing. The methods described in this text are examples of non-linear and non parametric curve fitting. The book aims to contribute to the field both among statis ticians and in the application oriented world (including but not limited to signals and images). Although it also contains extensive analyses of some existing methods, it has no intention whatsoever to be a complete overview of the field: the text would show too much bias towards my own algorithms. I rather present new material and own insights in the questions involved with wavelet based noise reduction. On the other hand, the presented material does cover a whole range of methodologies, and in that sense, the book may serve as an introduction into the domain of wavelet smoothing. Throughout the text, three main properties show up ever again: sparsity, locality and multiresolution. Nearly all wavelet based methods exploit at least one of these properties in some or the other way. These notes present research results of the Belgian Programme on Interuniver sity Poles of Attraction, initiated by the Belgian State, Prime Minister's Office for Science, Technology and Culture. The scientific responsibility rests with me. My research was financed by a grant (1995 - 1999) from the Flemish Institute for the Promotion of Scientific and Technological Research in the Industry (IWT).
Stochastic processes --- Numerical approximation theory --- Electronics --- Signal processing --- Electronic noise --- Wavelets (Mathematics) --- Active noise and vibration control. --- Traitement du signal --- Bruit électronique --- Ondelettes --- Contrôle actif du bruit et des vibrations --- Digital techniques --- Statistical methods. --- Automatic control. --- Techniques numériques --- Méthodes statistiques --- Commande automatique --- Statistical methods --- Automatic control --- 681.3*I43 --- -Signal processing --- -Wavelets (Mathematics) --- Wavelet analysis --- Harmonic analysis --- Processing, Signal --- Information measurement --- Signal theory (Telecommunication) --- Noise, Electronic --- Electric noise --- Enhancement: filering; geometric correction; grayscale manipulation; registration; sharpening and deblurring; smoothing (Image processing) --- -Statistical methods --- Basic Sciences. Statistics --- Statistics (General) --- Active noise and vibration control --- Electrical & Computer Engineering --- Engineering & Applied Sciences --- Telecommunications --- Wavelets (Mathematics). --- Statistics (General). --- 681.3*I43 Enhancement: filering; geometric correction; grayscale manipulation; registration; sharpening and deblurring; smoothing (Image processing) --- Bruit électronique --- Contrôle actif du bruit et des vibrations --- Techniques numériques --- Méthodes statistiques --- Active noise and vibration cancellation --- Active noise control --- Active vibration control --- ANVC (Active noise and vibration control) --- Electro-acoustics --- Acoustic impedance --- Digital techniques&delete& --- Applied mathematics. --- Engineering mathematics. --- Vibration. --- Dynamical systems. --- Dynamics. --- Statistics . --- Mathematical and Computational Engineering. --- Vibration, Dynamical Systems, Control. --- Statistics for Engineering, Physics, Computer Science, Chemistry and Earth Sciences. --- Statistical analysis --- Statistical data --- Statistical science --- Mathematics --- Econometrics --- Dynamical systems --- Kinetics --- Mechanics, Analytic --- Force and energy --- Mechanics --- Physics --- Statics --- Cycles --- Sound --- Engineering --- Engineering analysis --- Mathematical analysis --- Information, Théorie de l' --- Signal processing - Digital techniques - Statistical methods --- Electronic noise - Automatic control --- Theorie du signal
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Signal Processing for Active Control sets out the signal processing and automatic control techniques that are used in the analysis and implementation of active systems for the control of sound and vibration. After reviewing the performance limitations introduced by physical aspects of active control, Stephen Elliott presents the calculation of the optimal performance and the implementation of adaptive real time controllers for a wide variety of active control systems.Active sound and vibration control are technologically important problems with many applications. 'Act
Procesamiento de senales --- Signaalverwerking. --- Controlesystemen. --- Signal processing. --- Active noise and vibration control. --- Traitement du signal --- Contrôle actif du bruit et des vibrations --- 534.83 --- Vibrations and their control. Control of disturbing noise. Noise abatement --- 534.83 Vibrations and their control. Control of disturbing noise. Noise abatement --- Adaptive signal processing. --- Processing, Signal --- Information measurement --- Signal theory (Telecommunication) --- Signal processing, Adaptive --- Signal processing --- Active noise and vibration control --- Traitement du signal. --- Acoustique. --- Son. --- Active noise and vibration cancellation --- Active noise control --- Active vibration control --- ANVC (Active noise and vibration control) --- Electro-acoustics --- Acoustic impedance
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