Increasing emphasis on safety, productivity and quality control has provided an impetus to research on better methodologies for fault diagnosis, modeling, identification, control and optimization ofchemical process systems. One of the biggest challenges facing the research community is the processing of raw sensordata into meaningful information. Wavelet analysis is an emerging field of mathematics that has provided new tools and algorithms suited for the type of problems encountered in process monitoring and control. The concept emerged in the geophysical field as a result ofthe need for time-frequency analytical techniques. It has since been picked up by mathematicians and recognized as a unifying theory for many ofthe methodologies employed in the past in physics and signal processing. l Meyer states: "Wavelets are without doubt an exciting and intuitive concept. The concept brings with it a new way of thinking, which is absolutely essential and was entirely missing in previously existing algorithms. " The unification ofthe theory from these disciplines has led to applications of wavelet transforms in many areas ofscience and engineering including: • pattern recognition • signal analysis • time-frequency decomposition • process signal characterization and representation • process system modeling and identification • control system design, analysis and implementation • numerical solution ofdifferential equations • matrix manipulation About a year ago, in talking to various colleagues and co-workers, it became clear that a number of chemical engineers were fascinated with this new concept.
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Preface. I: Introduction to Wavelet Transformation and Time Frequency Analysis; X. Dai, B. Joseph, R.L. Motard. II: Computational Aspects of Wavelets and Wavelet Transforms; S. Palavajjhala, R.L. Motard, B. Joseph. III: Trend Analysis Using the Frazier--Jawerth Transform; A. Joshi, A. Kumar, R.L. Motard. IV: Process Signal Features Analysis; X. Dai, B. Joseph, R.L. Motard. V: Learning at Multiple Resolutions: Wavelets as Basis Functions in Artificial Neural Networks and Inductive Decision Trees; B.R. Bakshi, A. Koulouris, G. Stephanopoulos. VI: Application of Wavelets in Process Control; Y. Chikkula, J.H. Lee. VII: Use of Wavelets for Numerical Solution of Differential Equations; M. Nikolaou, Y. You. VIII: A Parallel Two-Dimensional Wavelet Packet Transform and Some Applications in Computing and Compression Analysis; E. Goirand, M.V. Wickerhauser, M. Farge.
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Taschenbuch. Condizione: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Increasing emphasis on safety, productivity and quality control has provided an impetus to research on better methodologies for fault diagnosis, modeling, identification, control and optimization ofchemical process systems. One of the biggest challenges facing the research community is the processing of raw sensordata into meaningful information. Wavelet analysis is an emerging field of mathematics that has provided new tools and algorithms suited for the type of problems encountered in process monitoring and control. The concept emerged in the geophysical field as a result ofthe need for time-frequency analytical techniques. It has since been picked up by mathematicians and recognized as a unifying theory for many ofthe methodologies employed in the past in physics and signal processing. l Meyer states: 'Wavelets are without doubt an exciting and intuitive concept. The concept brings with it a new way of thinking, which is absolutely essential and was entirely missing in previously existing algorithms. ' The unification ofthe theory from these disciplines has led to applications of wavelet transforms in many areas ofscience and engineering including: pattern recognition signal analysis time-frequency decomposition process signal characterization and representation process system modeling and identification control system design, analysis and implementation numerical solution ofdifferential equations matrix manipulation About a year ago, in talking to various colleagues and co-workers, it became clear that a number of chemical engineers were fascinated with this new concept. 340 pp. Englisch. Codice articolo 9781461361664
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Condizione: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. Increasing emphasis on safety, productivity and quality control has provided an impetus to research on better methodologies for fault diagnosis, modeling, identification, control and optimization ofchemical process systems. One of the biggest challenges fac. Codice articolo 4194362
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Taschenbuch. Condizione: Neu. Wavelet Applications in Chemical Engineering | Rodolphe L. Motard (u. a.) | Taschenbuch | xiii | Englisch | 2014 | Humana | EAN 9781461361664 | Verantwortliche Person für die EU: Springer Verlag GmbH, Tiergartenstr. 17, 69121 Heidelberg, juergen[dot]hartmann[at]springer[dot]com | Anbieter: preigu. Codice articolo 105125075
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Taschenbuch. Condizione: Neu. This item is printed on demand - Print on Demand Titel. Neuware -Increasing emphasis on safety, productivity and quality control has provided an impetus to research on better methodologies for fault diagnosis, modeling, identification, control and optimization ofchemical process systems. One of the biggest challenges facing the research community is the processing of raw sensordata into meaningful information. Wavelet analysis is an emerging field of mathematics that has provided new tools and algorithms suited for the type of problems encountered in process monitoring and control. The concept emerged in the geophysical field as a result ofthe need for time-frequency analytical techniques. It has since been picked up by mathematicians and recognized as a unifying theory for many ofthe methodologies employed in the past in physics and signal processing. l Meyer states: 'Wavelets are without doubt an exciting and intuitive concept. The concept brings with it a new way of thinking, which is absolutely essential and was entirely missing in previously existing algorithms. ' The unification ofthe theory from these disciplines has led to applications of wavelet transforms in many areas ofscience and engineering including: ¿ pattern recognition ¿ signal analysis ¿ time-frequency decomposition ¿ process signal characterization and representation ¿ process system modeling and identification ¿ control system design, analysis and implementation ¿ numerical solution ofdifferential equations ¿ matrix manipulation About a year ago, in talking to various colleagues and co-workers, it became clear that a number of chemical engineers were fascinated with this new concept.Springer-Verlag KG, Sachsenplatz 4-6, 1201 Wien 340 pp. Englisch. Codice articolo 9781461361664
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Taschenbuch. Condizione: Neu. Druck auf Anfrage Neuware - Printed after ordering - Increasing emphasis on safety, productivity and quality control has provided an impetus to research on better methodologies for fault diagnosis, modeling, identification, control and optimization ofchemical process systems. One of the biggest challenges facing the research community is the processing of raw sensordata into meaningful information. Wavelet analysis is an emerging field of mathematics that has provided new tools and algorithms suited for the type of problems encountered in process monitoring and control. The concept emerged in the geophysical field as a result ofthe need for time-frequency analytical techniques. It has since been picked up by mathematicians and recognized as a unifying theory for many ofthe methodologies employed in the past in physics and signal processing. l Meyer states: 'Wavelets are without doubt an exciting and intuitive concept. The concept brings with it a new way of thinking, which is absolutely essential and was entirely missing in previously existing algorithms. ' The unification ofthe theory from these disciplines has led to applications of wavelet transforms in many areas ofscience and engineering including: pattern recognition signal analysis time-frequency decomposition process signal characterization and representation process system modeling and identification control system design, analysis and implementation numerical solution ofdifferential equations matrix manipulation About a year ago, in talking to various colleagues and co-workers, it became clear that a number of chemical engineers were fascinated with this new concept. Codice articolo 9781461361664
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