Suhash Chandra Dutta Roy

Topics in Signal Processing (eBook, PDF)

Analog and Digital

• Format: PDF

Produktbeschreibung

This book is a collection of specific research problems in signal processing and their solutions. It touches upon most core topics, including active and passive processing, discrete-time and continuous signals, and design of filters and networks for specific applications. This unique collection of design problems and conceptual insights will be useful to graduate students, researchers, and professionals working on signal processing problems. In addition, the book can also be used as a supplementary text for graduate courses in advanced signal processing, and for professional development courses for practicing engineers.

Produktdetails

• Verlag: Springer Singapore
• Erscheinungstermin: 11. Oktober 2019
• Englisch
• ISBN-13: 9789811395321
• Artikelnr.: 57907119

Autorenporträt

Suhash Chandra Dutta Roy is an Indian electrical engineering educator and a former Professor and head of the Department of Electrical Engineering, and Dean of Undergraduate Studies at the Indian Institute of Technology, Delhi. He is known for his research studies on analog and digital signal processing. He is an elected fellow of all the three major Indian science academies viz. Indian Academy of Sciences, Indian National Science Academy, National Academy of Sciences, India as well as Indian National Academy of Engineering, the Institute of Electrical and Electronics Engineers, Systems Society of India and Acoustical Society of India, and is a Distinguished Fellow of the Institution of Electronics and Telecommunication Engineers.The Council of Scientific and Industrial Research, the apex agency of the Government of India for scientific research, awarded him the Shanti Swarup Bhatnagar Prize for Science and Technology, which is the highest Indian science award, for his contributions to Engineering Sciences in 1981. Prof Dutta Roy has designed and authored five full length video courses which are being promoted by National Programme on Technology Enhanced Learning, the e-learning platform of the Ministry of Human Resource Development, through their online learning platform.He has been associated with several government agencies as well as all the national journals in his field, and a number of international journals such as International Journal of Circuit Theory and Applications, and IEEE Transactions on Circuits and Systems. He served as a member of the administrative council of all the four national academies, as well as some national research laboratories. He is also the author of “Circuits, Systems and Signal Processing”, which was published by Springer in 2018.

Inhaltsangabe

Part I - Analog Signal Processing.- Section A: Signal Processing by Passive Networks.- Chapter 1 - Finite zero Butterworth and Chebyshev Filters.- Chapter 2 - The Limts of the Asymmetrical Bridged T-coil Network.- Chapter 3 - Multiple Frequency Impedance Matching by Frequency Transformation.- Chapter 4 - Triple Frequency Impedance Matching by Frequency Transformation.- Section B: Signal Processing by Distributed Networks.- Chapter 5 - Topological Formulas and Distributed Networks.- Chapter 6 - Equivalent Representation of Lossy Transmission Lines.- Chapter 7 - Approximation of a Variable Delay.- Section C- Signal Processing by Active Networks.- Chapter 8 - Second Order Active RC Filter with a Single Opearional Amplifier.- Chapter 9 - Tolerance Minded Design of Active RC Bandpass Filter.- Chapter 10 - Active RC Filter using a Single Differential Input Opearional Amplifier.- Chapter 11 - Second Order Active RC Bandpass Filter using Opearional Amplifiers in Low Gain Connection.- Chapter 12 - Inductor Simulation and its Applications to Low Sensitivity Biquad Design.- Chapter 13 - Frequency Limitations of Operational Amplifier RC Netwroks by the Dominant Pole Technique.- Section D: Discrete Time Signal Processing.- Chapter 14 - Shadow filters.- Chapter15 - Some Aspects of Digital and CTD Signal Processing.- Chapter16 - Signal Processing Applications of Charge Transfer Devices.- Chapter 17: Linear Phase versus Minimum Phase CCD Transversal Filters.- Part II : Digital Signal Processing.- Chapter 18 : A State of the Art Survey on Linear Phase Digital Filter Design.- Chapter 19 : Generalized Linear Phase Conditions for Causal FIR Systems Revisited.- Chapter 20 : A Review of Pseudo-Boolean Methods with Applications to Digital Filter Design.- Chapter 21 : Maximally Linear FIR Digital Differentiators : a Review.- Chapter 22 : Design of Maximally Flat and Monotonic FIR Filters using the Bernstein Polynomials.- Chapter 23 : On the Design of FIR Notch Filters.- Chapter 24 : Analytical Inversion of the Van der Monde and Confluent Van der Monde Matrices.- Chapter 25 : A New Canonic Lattice Realization of Arbitrary FIR Transfer Functions.- Chapter 26 : A Note on Canonical Lattice Realization of Arbitrary FIR Transfer Functions.- Chapter 27 : A New Canonic Lattice Realization of Arbitrary IIR Transfer Functions.- Chapter 28 : A New Feedback Configuration for Canonical Realization of IIR Filters and its Application to Lattice Filters.

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Part I - Analog Signal Processing.- Section A: Signal Processing by Passive Networks.- Chapter 1 - Finite zero Butterworth and Chebyshev Filters.- Chapter 2 - The Limts of the Asymmetrical Bridged T-coil Network.- Chapter 3 - Multiple Frequency Impedance Matching by Frequency Transformation.- Chapter 4 - Triple Frequency Impedance Matching by Frequency Transformation.- Section B: Signal Processing by Distributed Networks.- Chapter 5 - Topological Formulas and Distributed Networks.- Chapter 6 - Equivalent Representation of Lossy Transmission Lines.- Chapter 7 - Approximation of a Variable Delay.- Section C- Signal Processing by Active Networks.- Chapter 8 - Second Order Active RC Filter with a Single Opearional Amplifier.- Chapter 9 - Tolerance Minded Design of Active RC Bandpass Filter.- Chapter 10 - Active RC Filter using a Single Differential Input Opearional Amplifier.- Chapter 11 - Second Order Active RC Bandpass Filter using Opearional Amplifiers in Low Gain Connection.- Chapter 12 - Inductor Simulation and its Applications to Low Sensitivity Biquad Design.- Chapter 13 - Frequency Limitations of Operational Amplifier RC Netwroks by the Dominant Pole Technique.- Section D: Discrete Time Signal Processing .- Chapter 14 - Shadow filters.- Chapter15 - Some Aspects of Digital and CTD Signal Processing.- Chapter16 - Signal Processing Applications of Charge Transfer Devices.- Chapter 17: Linear Phase versus Minimum Phase CCD Transversal Filters.- Part II : Digital Signal Processing .- Chapter 18 : A State of the Art Survey on Linear Phase Digital Filter Design.- Chapter 19 : Generalized Linear Phase Conditions for Causal FIR Systems Revisited.- Chapter 20 : A Review of Pseudo-Boolean Methods with Applications to Digital Filter Design.- Chapter 21 : Maximally Linear FIR Digital Differentiators : a Review.- Chapter 22 : Design of Maximally Flat and Monotonic FIR Filters using the Bernstein Polynomials.- Chapter 23 : On the Design of FIR Notch Filters.- Chapter 24 : Analytical Inversion of the Van der Monde and Confluent Van der Monde Matrices.- Chapter 25 : A New Canonic Lattice Realization of Arbitrary FIR Transfer Functions.- Chapter 26 : A Note on Canonical Lattice Realization of Arbitrary FIR Transfer Functions.- Chapter 27 : A New Canonic Lattice Realization of Arbitrary IIR Transfer Functions.- Chapter 28 : A New Feedback Configuration for Canonical Realization of IIR Filters and its Application to Lattice Filters.