Cham, Switzerland : , : Springer, , [2021]

©2021

3-030-67155-0

1 online resource (305 pages)

781.1

Music - Acoustics and physics

Inglese

Intro -- Introduction -- Contents -- Part I -- Some Fundamentals of Musical Acoustics -- Play It Loud! -- The Mysterious Sound of Friction -- Linear Math and Nonlinear Nature -- Hermann von Helmholtz -- The First Synthesizers -- Voice from Impulses -- Unexpected Harmonicity -- Why Are Musical Instruments Such Complex Boxes? -- Who Wins the Game? -- Eigenmodes Versus Forced Oscillations -- What Makes a Musical Instrument Playable? -- Damping Is a Feature, Determining Who Wins the Game -- Synchronization as Output -- Some Fundamentals of Music Psychology -- Musical Instruments Treating the Psyche -- Music and Trance -- Aristoteles and the Beginning of Psychology -- Transcendental Aesthetic -- Transfer Effects of Music and Freedom of Will -- Music and Politics -- The Creation of Creativity -- Brain Activities -- The Split Between Hard and Soft Sciences -- Fusion of Senses -- Psychoacoustics -- Some Fundamentals of Comparative Musicology -- Music, DNA, and Sexulality -- Diversity and Change -- The Beginning of Comparative Musicology -- Ethnomusicology and Music Archiving -- Computational Music and Sound Archiving -- Part II -- Impulses -- What Is a Frequency? -- How to Deal with Many Frequencies: The Fourier Theorem -- Beyond Sinusoidals -- Damping -- Dispersion -- Linearity or Nonlinearity -- Impulse Pattern Formulation (IPF) -- Environmental Noise -- Musical Noise -- Initial Transients -- Information in Music -- Turbulence -- Turbulent and Laminar Flow -- Navier-Stokes Equation -- What Does Turbulence Lead To? -- Saxophone -- Saxophone Pitches

Are Not Self-evident -- Blowing in a Saxophone -- Blowing Out of Normal Range -- Multiphonics -- Modeling Saxophones with Impulse Pattern Formulation -- The Beginning of the Tone -- The Saxophone Reed -- More Wind Instruments -- Recorder and Transverse Flute -- Free Reed Instruments.

Shawms, Oboes, Double-Reed Instruments -- Brass Instruments -- Articulation and Noise with Wind Instruments -- Friction Instruments -- Guitars and Plucked String Instruments -- Practical Consequences for Guitar Acoustics -- The Human Voice -- Neurophysiology of Music -- Self-organizing Models of the Brain -- Music and Consciousness -- Reconstructing Impulses-The Ear and the Auditory Pathway -- Transfer of Acoustic Electricity into Neural Electricity:  The Inner Ear -- How Do We Hear a Pitch -- A Spatio-Temporal Pitch Theory -- How Do Tonal Systems Come into Place -- Loops in the Auditory Pathway -- Other Nerve Loops in the Auditory Pathway -- Models of Music Perception -- Timbre -- Multidimensionality of Timbre -- Music as Physical Adaption -- IPF Comparison of Bowed and Wind Instruments -- Neural Network Models of Timbre -- Rhythm, Musical Form, and Memory -- Neurophysiology of Time -- Musical Form as Tension -- Fractal Dimensions as Musical Density -- Musical Form as Neural Synchronization -- Efficient Coding -- Brain Interactions in Music Therapy -- Perception-by-Production as Self-organizing Process -- *-20pt  Part III -- Music, Meaning, and Emotion -- Freedom! Jazz! Dance! Yeah! -- Slave to the Rhythm -- Politics and Philosophy -- Logic of Music -- Physical Culture Theory -- Predicting Culture -- Physical Modeling or Artificial Intelligence? -- Notions as Spatio-Temporal Patterns -- The Musical System -- Is Culture Conscious? -- Appendix  Notes -- Appendix  Discography -- Appendix  References -- Blank Page -- Blank Page -- Blank Page -- Blank Page -- Blank Page -- Blank Page -- Blank Page -- Blank Page -- Blank Page -- Blank Page -- Blank Page.

Wiesbaden : , : Springer Fachmedien Wiesbaden : , : Imprint : Springer Vieweg, , 2025

9783658481889

3658481889

1 online resource (0 pages)

Wissenschaftliche Reihe Fahrzeugtechnik Universität Stuttgart, , 2567-0352

389.6

Automotive engineering

Electrical engineering

Automotive Engineering

Electrical and Electronic Engineering

Inglese

Includes bibliographical references.

Vehicle Electric/Electronic Architectures -- Optimization of Electric/Electronic Architectures -- Design of Zonal Electric/Electronic Architectures -- Case Study and Discussion.

Jonas Maier presents a method for designing decentralized, spatially structured E/E architectures. A coupled approach of package and wiring harness models is used for this purpose. Relevant data can be exchanged between the models by transferring the boundary conditions. The spatial division of the vehicle into zones is optimized by an extended k-means algorithm. Based on this, the connection paths between the components are optimized with regard to various boundary conditions. This results in a complexity reduction of the wiring harness as well as the overall architecture. Content Vehicle Electric/Electronic Architectures Optimization of Electric/Electronic Architectures Design of Zonal Electric/Electronic Architectures Case Study and Discussion Target Groups Lecturers and students of automotive, electrical and mechanical engineering Scientists in the field of E/E architectures, package integration and wiring harness About the Author Jonas Maier is currently a technical project manager and works

on data and power supply systems for railroad control and safety systems. Previously, he was a research assistant at the Institute of Automotive Engineering at the University of Stuttgart, where he conducted research in the field of decentralised electronic architectures focussing on complexity reduction and wiring harness optimisation.