Virtual design of an audio lifelogging system : tools for IoT systems / Brian Mears, Mohit Shah.
Tipo de material: TextoSeries Synthesis lectures on algorithms and software in engineering ; # 16.Editor: San Rafael, California : Morgan & Claypool Publishers, 2016Fecha de copyright: ©2016Descripción: ix, 63 páginas : ilustraciones, diagramas, gráficas ; 24 cmTipo de contenido:- texto
- sin mediación
- volumen
- 9781627056717
- 1627056718
- QA 76.9.D3385 M42.2016
Tipo de ítem | Biblioteca actual | Colección | Signatura topográfica | Copia número | Estado | Fecha de vencimiento | Código de barras | |
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QA 76.9.D32 L67.2013 Bases de datos / | QA 76.9.D33 L6818.1994 Guía microsoft para usuarios de doublespace / | QA 76.9.D33 T6.1989 Clipper / | QA 76.9.D3385 M42.2016 Virtual design of an audio lifelogging system : tools for IoT systems / | QA 76.9.D343 A9913.2012 Data analysis and data mining : an Introduction / | QA 76.9.D343 A9913.2017 Data analysis and data mining : an Introduction / | QA 76.9.D343 B47.2000 Building data mining applications for CRM / |
Incluye bibliografía (páginas 57-61).
1. Introduction -- 1.1 Virtual design defined -- 1.2 Why virtual design -- 1.3 Simulation technologies -- 1.4 Summary
2. Virtual design -- 2.1 Introduction to virtual platforms -- 2.2 Complexity -- 2.3 Methodology -- 2.4 VP abstraction levels -- 2.5 System simulation -- 2.6 Virtual machine technology -- 2.7 Emulation -- 2.8 Functional models -- 2.9 Architecture model -- 2.10 Cycle-accurate and RTL abstraction levels -- 2.11 SystemC -- 2.12 Cloud computing and services
3. Audio lifelogging -- 3.1 Introduction to lifelogging -- 3.2 Overview of algorithms -- 3.2.1 Compression -- 3.2.2 Feature extraction -- 3.2.3 Segmentation -- 3.2.4 Sound models -- 3.2.5 Annotation and retrieval -- 3.3 Implementation -- 3.4 Lifelogging development -- 3.4.1 Stage 1: concept implementation -- 3.4.2 Stage 2: optimizations and enhancements -- 3.4.3 Stage 3: real-time algorithm testing
4. Summary -- 4.1 A discussion of the audio lifelogging project -- 4.2 Discussion of methodology -- 4.3 Conclusions -- Bibliography -- Authors' biographies.
The availability of inexpensive, custom, highly integrated circuits is enabling some very powerful systems that bring together sensors, smart phones, wearables, cloud computing, and other technologies. To design these types of complex systems we are advocating a top-down simulation methodology to identify problems early. This approach enables software development to start prior to expensive chip and hardware development. We call the overall approach virtual design. This book explains why simulation has become important for chip design and provides an introduction to some of the simulation methods used. The audio lifelogging research project demonstrates the virtual design process in practice. The goals of this book are to: Explain how silicon design has become more closely involved with system design; Show how virtual design enables top down design; Explain the utility of simulation at different abstraction levels; Show how open source simulation software was used in audio lifelogging. The target audience for this book are faculty, engineers, and students who are interested in developing digital devices for Internet of Things (IoT) types of products.