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Short-range wireless communication [[electronic resource] ] : fundamentals of RF system design and application / / by Alan Bensky
Short-range wireless communication [[electronic resource] ] : fundamentals of RF system design and application / / by Alan Bensky
Autore Bensky Alan <1939->
Edizione [2nd ed.]
Pubbl/distr/stampa Amsterdam ; ; Boston, : Elsevier
Descrizione fisica 1 online resource (385 p.)
Disciplina 621.384
Collana Communications engineering series
Soggetto topico Wireless communication systems
ISBN 1-280-96439-1
9786610964390
0-08-047005-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto copyright; table of contents; front matter; Dedication; Preface to the First Edition; Preface to the Second Edition; What's on the CD-ROM; body; 1. Introduction; 1.1 Historical Perspective; 1.2 Reasons for the Spread of Wireless Applications; 1.3 Characteristics of Short-range Radio; 1.4 Elements of Wireless Communication Systems; 1.5 Summary; 2. Radio Propagation; 2.1 Mechanisms of Radio Wave Propagation; 2.2 Open Field Propagation; 2.3 Diffraction; 2.4 Scattering; 2.5 Path Loss; 2.6 Multipath Phenomena; 2.7 Flat Fading; 2.8 Diversity Techniques; 2.9 Noise; 2.10 Summary; Appendix 2-A
3. Antennas and Transmission Lines3.1 Introduction; 3.2 Antenna Characteristics; 3.3 Types of Antennas; 3.4 Impedance Matching; 3.5 Measuring Techniques; 3.6 Summary; 4. Communication Protocols and Modulation; 4.1 Baseband Data Format and Protocol; 4.2 Baseband Coding; 4.3 RF Frequency and Bandwidth; 4.4 Modulation; 4.5 RFID; 4.6 Summary; 5. Transmitters; 5.1 RF Source; 5.2 Modulation; 5.3 Amplifiers; 5.4 Filtering; 5.5 Antenna; 5.6 Summary; 6. Receivers; 6.1 Tuned Radio Frequency (TRF); 6.2 Superregenerative Receiver; 6.3 Superheterodyne Receiver; 6.4 Direct Conversion Receiver
6.5 Digital Receivers6.6 Repeaters; 6.7 Summary; 7. Radio System Design; 7.1 Range; 7.2 Sensitivity; 7.3 Finding Range from Sensitivity; 7.4 Superheterodyne Image and Spurious Response; 7.5 Intermodulation Distortion and Dynamic Range; 7.6 Demodulation; 7.7 Internal Receiver Noise; 7.8 Transmitter Design; 7.9 Bandwidth; 7.10 Antenna Directivity; 7.11 The Power Source; 7.12 Summary; 8. System Implementation; 8.1 Wireless Modules; 8.2 Systems on a Chip; 8.3 Large Scale Subsystems; 8.4 Summary; 9. Regulations and Standards; 9.1 FCC Regulations; 9.2 Test Method for Part 15
9.3 European Radiocommunication Regulations9.4 The European Union Electromagnetic Compatibility Requirements; 9.5 Standards in the United Kingdom; 9.6 Japanese Low Power Standards; 9.7 Non-Governmental Standards; Appendix 9-A; Appendix 9-B; Appendix 9-C; 10. Introduction to Information Theory; 10.1 Probability; 10.2 Information Theory; 10.3 Summary; 11. Applications and Technologies; 11.1 Wireless Local Area Networks (WLAN); 11.2 Bluetooth; 11.3 Zigbee; 11.4 Conflict and Compatibility; 11.5 Ultra-wideband Technology; 11.6 Summary; back matter; Abbreviations; References and Bibliography; index
Record Nr. UNINA-9910784361503321
Bensky Alan <1939->  
Amsterdam ; ; Boston, : Elsevier
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Short-range wireless communication : fundamentals of RF system design and application / / by Alan Bensky
Short-range wireless communication : fundamentals of RF system design and application / / by Alan Bensky
Autore Bensky Alan <1939->
Edizione [2nd ed.]
Pubbl/distr/stampa Amsterdam ; ; Boston, : Elsevier
Descrizione fisica 1 online resource (385 p.)
Disciplina 621.384
Collana Communications engineering series
Soggetto topico Wireless communication systems
ISBN 1-280-96439-1
9786610964390
0-08-047005-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto copyright; table of contents; front matter; Dedication; Preface to the First Edition; Preface to the Second Edition; What's on the CD-ROM; body; 1. Introduction; 1.1 Historical Perspective; 1.2 Reasons for the Spread of Wireless Applications; 1.3 Characteristics of Short-range Radio; 1.4 Elements of Wireless Communication Systems; 1.5 Summary; 2. Radio Propagation; 2.1 Mechanisms of Radio Wave Propagation; 2.2 Open Field Propagation; 2.3 Diffraction; 2.4 Scattering; 2.5 Path Loss; 2.6 Multipath Phenomena; 2.7 Flat Fading; 2.8 Diversity Techniques; 2.9 Noise; 2.10 Summary; Appendix 2-A
3. Antennas and Transmission Lines3.1 Introduction; 3.2 Antenna Characteristics; 3.3 Types of Antennas; 3.4 Impedance Matching; 3.5 Measuring Techniques; 3.6 Summary; 4. Communication Protocols and Modulation; 4.1 Baseband Data Format and Protocol; 4.2 Baseband Coding; 4.3 RF Frequency and Bandwidth; 4.4 Modulation; 4.5 RFID; 4.6 Summary; 5. Transmitters; 5.1 RF Source; 5.2 Modulation; 5.3 Amplifiers; 5.4 Filtering; 5.5 Antenna; 5.6 Summary; 6. Receivers; 6.1 Tuned Radio Frequency (TRF); 6.2 Superregenerative Receiver; 6.3 Superheterodyne Receiver; 6.4 Direct Conversion Receiver
6.5 Digital Receivers6.6 Repeaters; 6.7 Summary; 7. Radio System Design; 7.1 Range; 7.2 Sensitivity; 7.3 Finding Range from Sensitivity; 7.4 Superheterodyne Image and Spurious Response; 7.5 Intermodulation Distortion and Dynamic Range; 7.6 Demodulation; 7.7 Internal Receiver Noise; 7.8 Transmitter Design; 7.9 Bandwidth; 7.10 Antenna Directivity; 7.11 The Power Source; 7.12 Summary; 8. System Implementation; 8.1 Wireless Modules; 8.2 Systems on a Chip; 8.3 Large Scale Subsystems; 8.4 Summary; 9. Regulations and Standards; 9.1 FCC Regulations; 9.2 Test Method for Part 15
9.3 European Radiocommunication Regulations9.4 The European Union Electromagnetic Compatibility Requirements; 9.5 Standards in the United Kingdom; 9.6 Japanese Low Power Standards; 9.7 Non-Governmental Standards; Appendix 9-A; Appendix 9-B; Appendix 9-C; 10. Introduction to Information Theory; 10.1 Probability; 10.2 Information Theory; 10.3 Summary; 11. Applications and Technologies; 11.1 Wireless Local Area Networks (WLAN); 11.2 Bluetooth; 11.3 Zigbee; 11.4 Conflict and Compatibility; 11.5 Ultra-wideband Technology; 11.6 Summary; back matter; Abbreviations; References and Bibliography; index
Record Nr. UNINA-9910815972603321
Bensky Alan <1939->  
Amsterdam ; ; Boston, : Elsevier
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Software design for engineers and scientists [[electronic resource] /] / John A. Robinson
Software design for engineers and scientists [[electronic resource] /] / John A. Robinson
Autore Robinson John A
Edizione [1st edition]
Pubbl/distr/stampa Amsterdam ; ; Boston, : Newnes, 2004
Descrizione fisica 1 online resource (429 p.)
Disciplina 005.1
005.102462
Soggetto topico Computer software - Development
Engineering - Data processing
Computer programming
Software engineering
Soggetto genere / forma Electronic books.
ISBN 1-281-00327-1
9786611003272
0-08-047440-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Software Design for Engineers and Scientists; Contents; Preface; Acknowledgements; Errors; 1 Introduction; 1.1 Theme; 1.2 Audience; 1.3 Three definitions and a controversy; 1.4 Essential software design; 1.5 Outline of the book; Foundations; Software technology; Applied software design; Case studies; 1.6 Presentation conventions; 1.7 Chapter end material; Bibliography; 2 Fundamentals; 2.1 Introduction; 2.2 The nature of software; 2.3 Software as mathematics; 2.4 Software as literature; 2.5 Organic software; 2.6 Software design as engineering; 2.7 Putting the program in its place
2.8 User-centred design2.9 The craft of program construction; 2.10 Programmers' programming; 2.11 Living with ambiguity; 2.12 Summary; 2.13 Chapter end material; Bibliography; 3 The craft of software design; 3.1 Introduction; 3.2 Collaboration and imitation; 3.3 Finishing; 3.4 Tool building; 3.5 Logbooks; 3.6 The personal library; 3.7 Chapter end material; Bibliography; 4 Beginning programming in C++; 4.1 Introduction; 4.2 The programming environment; 4.3 Program shape, output, and the basic types; 4.4 Variables and their types; 4.5 Conditionals and compound statements; 4.6 Loops
4.7 Random numbers, timing and an arithmetic game4.8 Functions; 4.9 Arrays and C-strings; 4.10 Program example: A dice-rolling simulation; 4.11 Bitwise operators; 4.12 Pointers; 4.13 Arrays of pointers and program arguments; 4.14 Static and global variables; 4.15 File input and output; 4.16 Structures; 4.17 Pointers to structures; 4.18 Making the program more general; 4.19 Loading structured data; 4.20 Memory allocation; 4.21 typedef; 4.22 enum; 4.23 Mechanisms that underlie the program; 4.24 More on the C/C++ standard library; 4.25 Chapter end material; Bibliography
5 Object-oriented programming in C++5.1 The motivation for object-oriented programming; Objects localize information; In an object-oriented language, existing solutions can be extended powerfully; 5.2 Glossary of terms in object-oriented programming; Data structure; Abstract Data Type (ADT); Class; Object; Method; Member function; Message; Base types and derived types; Inheritance; Polymorphism; 5.3 C++ type definition, instantiation and using objects; Stack ADT example; Location ADT example; Vector ADT example; 5.4 Overloading; Operator overloading; 5.5 Building a String class
5.6 Derived types, inheritance and polymorphismLocations and mountains example; Student marks example; 5.7 Exceptions; 5.8 Templates; 5.9 Streams; 5.10 C++ and information localization; 5.11 Chapter end material; Bibliography; 6 Program style and structure; 6.1 Write fewer bugs!; 6.2 Ten programming errors and how to avoid them; The invalid memory access error; The off-by-1 error; Incorrect initialization; Variable type errors; Loop errors; Incorrect code blocking; Returning a pointer or a reference to a local variable; Other problems with new and delete; Inadequate checking of input data
Different modules interpret shared items differently
Record Nr. UNINA-9910457076103321
Robinson John A  
Amsterdam ; ; Boston, : Newnes, 2004
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Software design for engineers and scientists [[electronic resource] /] / John A. Robinson
Software design for engineers and scientists [[electronic resource] /] / John A. Robinson
Autore Robinson John A
Edizione [1st edition]
Pubbl/distr/stampa Amsterdam ; ; Boston, : Newnes, 2004
Descrizione fisica 1 online resource (429 p.)
Disciplina 005.1
005.102462
Soggetto topico Computer software - Development
Engineering - Data processing
Computer programming
Software engineering
ISBN 1-281-00327-1
9786611003272
0-08-047440-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Software Design for Engineers and Scientists; Contents; Preface; Acknowledgements; Errors; 1 Introduction; 1.1 Theme; 1.2 Audience; 1.3 Three definitions and a controversy; 1.4 Essential software design; 1.5 Outline of the book; Foundations; Software technology; Applied software design; Case studies; 1.6 Presentation conventions; 1.7 Chapter end material; Bibliography; 2 Fundamentals; 2.1 Introduction; 2.2 The nature of software; 2.3 Software as mathematics; 2.4 Software as literature; 2.5 Organic software; 2.6 Software design as engineering; 2.7 Putting the program in its place
2.8 User-centred design2.9 The craft of program construction; 2.10 Programmers' programming; 2.11 Living with ambiguity; 2.12 Summary; 2.13 Chapter end material; Bibliography; 3 The craft of software design; 3.1 Introduction; 3.2 Collaboration and imitation; 3.3 Finishing; 3.4 Tool building; 3.5 Logbooks; 3.6 The personal library; 3.7 Chapter end material; Bibliography; 4 Beginning programming in C++; 4.1 Introduction; 4.2 The programming environment; 4.3 Program shape, output, and the basic types; 4.4 Variables and their types; 4.5 Conditionals and compound statements; 4.6 Loops
4.7 Random numbers, timing and an arithmetic game4.8 Functions; 4.9 Arrays and C-strings; 4.10 Program example: A dice-rolling simulation; 4.11 Bitwise operators; 4.12 Pointers; 4.13 Arrays of pointers and program arguments; 4.14 Static and global variables; 4.15 File input and output; 4.16 Structures; 4.17 Pointers to structures; 4.18 Making the program more general; 4.19 Loading structured data; 4.20 Memory allocation; 4.21 typedef; 4.22 enum; 4.23 Mechanisms that underlie the program; 4.24 More on the C/C++ standard library; 4.25 Chapter end material; Bibliography
5 Object-oriented programming in C++5.1 The motivation for object-oriented programming; Objects localize information; In an object-oriented language, existing solutions can be extended powerfully; 5.2 Glossary of terms in object-oriented programming; Data structure; Abstract Data Type (ADT); Class; Object; Method; Member function; Message; Base types and derived types; Inheritance; Polymorphism; 5.3 C++ type definition, instantiation and using objects; Stack ADT example; Location ADT example; Vector ADT example; 5.4 Overloading; Operator overloading; 5.5 Building a String class
5.6 Derived types, inheritance and polymorphismLocations and mountains example; Student marks example; 5.7 Exceptions; 5.8 Templates; 5.9 Streams; 5.10 C++ and information localization; 5.11 Chapter end material; Bibliography; 6 Program style and structure; 6.1 Write fewer bugs!; 6.2 Ten programming errors and how to avoid them; The invalid memory access error; The off-by-1 error; Incorrect initialization; Variable type errors; Loop errors; Incorrect code blocking; Returning a pointer or a reference to a local variable; Other problems with new and delete; Inadequate checking of input data
Different modules interpret shared items differently
Record Nr. UNINA-9910784454503321
Robinson John A  
Amsterdam ; ; Boston, : Newnes, 2004
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Software design for engineers and scientists / / John A. Robinson
Software design for engineers and scientists / / John A. Robinson
Autore Robinson John A
Edizione [1st edition]
Pubbl/distr/stampa Amsterdam ; ; Boston, : Newnes, 2004
Descrizione fisica 1 online resource (429 p.)
Disciplina 005.1
005.102462
Soggetto topico Computer software - Development
Engineering - Data processing
Computer programming
Software engineering
ISBN 1-281-00327-1
9786611003272
0-08-047440-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Software Design for Engineers and Scientists; Contents; Preface; Acknowledgements; Errors; 1 Introduction; 1.1 Theme; 1.2 Audience; 1.3 Three definitions and a controversy; 1.4 Essential software design; 1.5 Outline of the book; Foundations; Software technology; Applied software design; Case studies; 1.6 Presentation conventions; 1.7 Chapter end material; Bibliography; 2 Fundamentals; 2.1 Introduction; 2.2 The nature of software; 2.3 Software as mathematics; 2.4 Software as literature; 2.5 Organic software; 2.6 Software design as engineering; 2.7 Putting the program in its place
2.8 User-centred design2.9 The craft of program construction; 2.10 Programmers' programming; 2.11 Living with ambiguity; 2.12 Summary; 2.13 Chapter end material; Bibliography; 3 The craft of software design; 3.1 Introduction; 3.2 Collaboration and imitation; 3.3 Finishing; 3.4 Tool building; 3.5 Logbooks; 3.6 The personal library; 3.7 Chapter end material; Bibliography; 4 Beginning programming in C++; 4.1 Introduction; 4.2 The programming environment; 4.3 Program shape, output, and the basic types; 4.4 Variables and their types; 4.5 Conditionals and compound statements; 4.6 Loops
4.7 Random numbers, timing and an arithmetic game4.8 Functions; 4.9 Arrays and C-strings; 4.10 Program example: A dice-rolling simulation; 4.11 Bitwise operators; 4.12 Pointers; 4.13 Arrays of pointers and program arguments; 4.14 Static and global variables; 4.15 File input and output; 4.16 Structures; 4.17 Pointers to structures; 4.18 Making the program more general; 4.19 Loading structured data; 4.20 Memory allocation; 4.21 typedef; 4.22 enum; 4.23 Mechanisms that underlie the program; 4.24 More on the C/C++ standard library; 4.25 Chapter end material; Bibliography
5 Object-oriented programming in C++5.1 The motivation for object-oriented programming; Objects localize information; In an object-oriented language, existing solutions can be extended powerfully; 5.2 Glossary of terms in object-oriented programming; Data structure; Abstract Data Type (ADT); Class; Object; Method; Member function; Message; Base types and derived types; Inheritance; Polymorphism; 5.3 C++ type definition, instantiation and using objects; Stack ADT example; Location ADT example; Vector ADT example; 5.4 Overloading; Operator overloading; 5.5 Building a String class
5.6 Derived types, inheritance and polymorphismLocations and mountains example; Student marks example; 5.7 Exceptions; 5.8 Templates; 5.9 Streams; 5.10 C++ and information localization; 5.11 Chapter end material; Bibliography; 6 Program style and structure; 6.1 Write fewer bugs!; 6.2 Ten programming errors and how to avoid them; The invalid memory access error; The off-by-1 error; Incorrect initialization; Variable type errors; Loop errors; Incorrect code blocking; Returning a pointer or a reference to a local variable; Other problems with new and delete; Inadequate checking of input data
Different modules interpret shared items differently
Record Nr. UNINA-9910825032003321
Robinson John A  
Amsterdam ; ; Boston, : Newnes, 2004
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Software engineering for embedded systems : methods, practical techniques, and applications / / Robert Oshana, Mark Kraeling
Software engineering for embedded systems : methods, practical techniques, and applications / / Robert Oshana, Mark Kraeling
Autore Oshana Robert
Edizione [1st ed.]
Pubbl/distr/stampa Amsterdam ; ; Boston, : Elsevier/Newnes, 2013
Descrizione fisica 1 online resource (xlix, 1150 pages) : illustrations (some color)
Disciplina 006.22
Collana Expert guide
Soggetto topico Software engineering
Embedded computer systems
ISBN 1-299-45228-0
0-12-415941-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; Software Engineering for Embedded Systems; Copyright Page; Contents; Software Engineering for Embedded Systems: A Roadmap; Foreword to Software Engineering for Embedded Systems; Acknowledgments; About the Editors; About the Authors; 1 Software Engineering of Embedded and Real-Time Systems; Software engineering; Embedded systems; Embedded systems are reactive systems; Real-time systems; Types of real-time systems - soft and hard; Differences between real-time and time-shared systems; Examples of hard real-time
Based on signal sample, time to perform actions before next sample arrivesHard real-time systems; Real-time event characteristics; Real-time event categories; Efficient execution and the execution environment; Efficiency overview; Resource management; Challenges in real-time system design; Response time; Recovering from failures; The embedded system software build process; Distributed and multi-processor architectures; Software for embedded systems; Super loop architecture; Power-save super loop; Window lift embedded design; Hardware abstraction layers (HAL) for embedded systems; Summary
2 Embedded Systems Hardware/Software Co-DevelopmentToday's embedded systems - an example; HW/SW prototyping users; HW/SW prototyping options; Prototyping decision criteria; Choosing the right prototype; Industry design chain; The need to change the design flow; Different types of virtual prototypes; A brief history of virtual prototypes; The limits of proprietary offerings; What makes virtual prototypes fast; Standardization: the era of SystemC TLM-2.0; SystemC TLM-2 abstraction levels; Architecture virtual prototypes; Software virtual prototypes
Summary - the growing importance of virtualization3 Software Modeling for Embedded Systems; When and why should you model your embedded system?; Modeling; What is a modeling language?; Examples of modeling languages; The V diagram promise; So, why would you want to model your embedded system?; When should you model your embedded system?; Mission- and safety-critical applications; Highly complex applications and systems; Operational complexity; Cost of defect versus when detected; Large development teams require modeling; Modeling is often the only choice
So - modeling is great, but aren't all models wrong?You have your prototype - now what?; Conclusion; Next steps - try it!; Closed-loop control with a DC motor; Learn more about prototyping with a downloadable kit; Designing applications with the NI Statechart Module; Design and simulate a brushed dc motor h-bridge circuit; Multi-domain physical modeling with open-source Modelica models; References; 4 Software Design Architecture and Patterns for Embedded Systems; Overview of architecture and design; Architecture is about system-wide optimization; Three levels of design
What are design patterns?
Record Nr. UNINA-9910779569203321
Oshana Robert  
Amsterdam ; ; Boston, : Elsevier/Newnes, 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Software engineering for embedded systems : methods, practical techniques, and applications / / Robert Oshana, Mark Kraeling
Software engineering for embedded systems : methods, practical techniques, and applications / / Robert Oshana, Mark Kraeling
Autore Oshana Robert
Edizione [1st ed.]
Pubbl/distr/stampa Amsterdam ; ; Boston, : Elsevier/Newnes, 2013
Descrizione fisica 1 online resource (xlix, 1150 pages) : illustrations (some color)
Disciplina 006.22
Collana Expert guide
Soggetto topico Software engineering
Embedded computer systems
ISBN 1-299-45228-0
0-12-415941-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; Software Engineering for Embedded Systems; Copyright Page; Contents; Software Engineering for Embedded Systems: A Roadmap; Foreword to Software Engineering for Embedded Systems; Acknowledgments; About the Editors; About the Authors; 1 Software Engineering of Embedded and Real-Time Systems; Software engineering; Embedded systems; Embedded systems are reactive systems; Real-time systems; Types of real-time systems - soft and hard; Differences between real-time and time-shared systems; Examples of hard real-time
Based on signal sample, time to perform actions before next sample arrivesHard real-time systems; Real-time event characteristics; Real-time event categories; Efficient execution and the execution environment; Efficiency overview; Resource management; Challenges in real-time system design; Response time; Recovering from failures; The embedded system software build process; Distributed and multi-processor architectures; Software for embedded systems; Super loop architecture; Power-save super loop; Window lift embedded design; Hardware abstraction layers (HAL) for embedded systems; Summary
2 Embedded Systems Hardware/Software Co-DevelopmentToday's embedded systems - an example; HW/SW prototyping users; HW/SW prototyping options; Prototyping decision criteria; Choosing the right prototype; Industry design chain; The need to change the design flow; Different types of virtual prototypes; A brief history of virtual prototypes; The limits of proprietary offerings; What makes virtual prototypes fast; Standardization: the era of SystemC TLM-2.0; SystemC TLM-2 abstraction levels; Architecture virtual prototypes; Software virtual prototypes
Summary - the growing importance of virtualization3 Software Modeling for Embedded Systems; When and why should you model your embedded system?; Modeling; What is a modeling language?; Examples of modeling languages; The V diagram promise; So, why would you want to model your embedded system?; When should you model your embedded system?; Mission- and safety-critical applications; Highly complex applications and systems; Operational complexity; Cost of defect versus when detected; Large development teams require modeling; Modeling is often the only choice
So - modeling is great, but aren't all models wrong?You have your prototype - now what?; Conclusion; Next steps - try it!; Closed-loop control with a DC motor; Learn more about prototyping with a downloadable kit; Designing applications with the NI Statechart Module; Design and simulate a brushed dc motor h-bridge circuit; Multi-domain physical modeling with open-source Modelica models; References; 4 Software Design Architecture and Patterns for Embedded Systems; Overview of architecture and design; Architecture is about system-wide optimization; Three levels of design
What are design patterns?
Record Nr. UNINA-9910808577703321
Oshana Robert  
Amsterdam ; ; Boston, : Elsevier/Newnes, 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Statistics and probability for engineering applications with Microsoft Excel [[electronic resource] /] / by W. J. DeCoursey
Statistics and probability for engineering applications with Microsoft Excel [[electronic resource] /] / by W. J. DeCoursey
Autore DeCoursey W. J (William J.)
Pubbl/distr/stampa Amsterdam ; ; Boston, : Newnes, c2003
Descrizione fisica 1 online resource (417 p.)
Disciplina 620.001/5195
Soggetto topico Engineering - Statistical methods
Soggetto genere / forma Electronic books.
ISBN 1-281-04953-0
9786611049539
0-08-048975-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Statistics and Probability for Engineering Applications; Copyright Page; Contents; Preface; List of Symbols; Chapter 1. Introduction: Probability and Statistics; 1.1 Some Important Terms; 1.2 What does this book contain?; Chapter 2. Basic Probability; 2.1 Fundamental Concepts; 2.2 Basic Rules of Combining Probabilities; 2.3 Permutations and Combinations; 2.4 More Complex Problems: Bayes' Rule; Chapter 3. Descriptive Statistics: Summary Numbers; 3.1 Central Location; 3.2 Variability or Spread of the Data; 3.3 Quartiles, Deciles, Percentiles, and Quantiles
3.4 Using a Computer to Calculate Summary NumbersChapter 4. Grouped Frequencies and Graphical Descriptions; 4.1 Stem-and-Leaf Displays; 4.2 Box Plots; 4.3 Frequency Graphs of Discrete Data; 4.4 Continuous Data: Grouped Frequency; 4.5 Use of Computers; Chapter 5. Probability Distributions of Discrete Variables; 5.1 Probability Functions and Distribution Functions; 5.2 Expectation and Variance; 5.3 Binomial Distribution; 5.4 Poisson Distribution; 5.5 Extension: Other Discrete Distributions; 5.6 Relation Between Probability Distributions and Frequency Distributions
Chapter 6. Probability Distributions of Continuous Variables6.1 Probability from the Probability Density Function; 6.2 Expected Value and Variance; 6.3 Extension: Useful Continuous Distributions; 6.4 Extension: Reliability; Chapter 7. The Normal Distribution; 7.1 Characteristics; 7.2 Probability from the Probability Density Function; 7.3 Using Tables for the Normal Distribution; 7.4 Using the Computer; 7.5 Fitting the Normal Distribution to Frequency Data; 7.6 Normal Approximation to a Binomial Distribution; 7.7 Fitting the Normal Distribution to Cumulative Frequency Data
7.8 Transformation of Variables to Give a Normal DistributionChapter 8. Sampling and Combination of Variables; 8.1 Sampling; 8.2 Linear Combination of Independent Variables; 8.3 Variance of Sample Means; 8.4 Shape of Distribution of Sample Means: Central Limit Theorem; Chapter 9. Statistical Inferences for the Mean; 9.1 Inferences for the Mean when Variance Is Known; 9.2 Inferences for the Mean when Variance Is Estimated from a Sample; Chapter 10. Statistical Inferences for Variance and Proportion; 10.1 Inferences for Variance; 10.2 Inferences for Proportion
Chapter 11. Introduction to Design of Experiments11.1 Experimentation vs. Use of Routine Operating Data; 11.2 Scale of Experimentation; 11.3 One-factor-at-a-time vs. Factorial Design; 11.4 Replication; 11.5 Bias Due to Interfering Factors; 11.6 Fractional Factorial Designs; Chapter 12. Introduction to Analysis of Variance; 12.1 One-way Analysis of Variance; 12.2 Two-way Analysis of Variance; 12.3 Analysis of Randomized Block Design; 12.4 Concluding Remarks; Chapter 13. Chi-squared Test for Frequency Distributions; 13.1 Calculation of the Chi-squared Function; 13.2 Case of Equal Probabilities
13.3 Goodness of Fit
Record Nr. UNINA-9910457359203321
DeCoursey W. J (William J.)  
Amsterdam ; ; Boston, : Newnes, c2003
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Statistics and probability for engineering applications with Microsoft Excel [[electronic resource] /] / by W. J. DeCoursey
Statistics and probability for engineering applications with Microsoft Excel [[electronic resource] /] / by W. J. DeCoursey
Autore DeCoursey W. J (William J.)
Pubbl/distr/stampa Amsterdam ; ; Boston, : Newnes, c2003
Descrizione fisica 1 online resource (417 p.)
Disciplina 620.001/5195
Soggetto topico Engineering - Statistical methods
ISBN 1-281-04953-0
9786611049539
0-08-048975-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Statistics and Probability for Engineering Applications; Copyright Page; Contents; Preface; List of Symbols; Chapter 1. Introduction: Probability and Statistics; 1.1 Some Important Terms; 1.2 What does this book contain?; Chapter 2. Basic Probability; 2.1 Fundamental Concepts; 2.2 Basic Rules of Combining Probabilities; 2.3 Permutations and Combinations; 2.4 More Complex Problems: Bayes' Rule; Chapter 3. Descriptive Statistics: Summary Numbers; 3.1 Central Location; 3.2 Variability or Spread of the Data; 3.3 Quartiles, Deciles, Percentiles, and Quantiles
3.4 Using a Computer to Calculate Summary NumbersChapter 4. Grouped Frequencies and Graphical Descriptions; 4.1 Stem-and-Leaf Displays; 4.2 Box Plots; 4.3 Frequency Graphs of Discrete Data; 4.4 Continuous Data: Grouped Frequency; 4.5 Use of Computers; Chapter 5. Probability Distributions of Discrete Variables; 5.1 Probability Functions and Distribution Functions; 5.2 Expectation and Variance; 5.3 Binomial Distribution; 5.4 Poisson Distribution; 5.5 Extension: Other Discrete Distributions; 5.6 Relation Between Probability Distributions and Frequency Distributions
Chapter 6. Probability Distributions of Continuous Variables6.1 Probability from the Probability Density Function; 6.2 Expected Value and Variance; 6.3 Extension: Useful Continuous Distributions; 6.4 Extension: Reliability; Chapter 7. The Normal Distribution; 7.1 Characteristics; 7.2 Probability from the Probability Density Function; 7.3 Using Tables for the Normal Distribution; 7.4 Using the Computer; 7.5 Fitting the Normal Distribution to Frequency Data; 7.6 Normal Approximation to a Binomial Distribution; 7.7 Fitting the Normal Distribution to Cumulative Frequency Data
7.8 Transformation of Variables to Give a Normal DistributionChapter 8. Sampling and Combination of Variables; 8.1 Sampling; 8.2 Linear Combination of Independent Variables; 8.3 Variance of Sample Means; 8.4 Shape of Distribution of Sample Means: Central Limit Theorem; Chapter 9. Statistical Inferences for the Mean; 9.1 Inferences for the Mean when Variance Is Known; 9.2 Inferences for the Mean when Variance Is Estimated from a Sample; Chapter 10. Statistical Inferences for Variance and Proportion; 10.1 Inferences for Variance; 10.2 Inferences for Proportion
Chapter 11. Introduction to Design of Experiments11.1 Experimentation vs. Use of Routine Operating Data; 11.2 Scale of Experimentation; 11.3 One-factor-at-a-time vs. Factorial Design; 11.4 Replication; 11.5 Bias Due to Interfering Factors; 11.6 Fractional Factorial Designs; Chapter 12. Introduction to Analysis of Variance; 12.1 One-way Analysis of Variance; 12.2 Two-way Analysis of Variance; 12.3 Analysis of Randomized Block Design; 12.4 Concluding Remarks; Chapter 13. Chi-squared Test for Frequency Distributions; 13.1 Calculation of the Chi-squared Function; 13.2 Case of Equal Probabilities
13.3 Goodness of Fit
Record Nr. UNINA-9910784358203321
DeCoursey W. J (William J.)  
Amsterdam ; ; Boston, : Newnes, c2003
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Statistics and probability for engineering applications with Microsoft Excel / / by W. J. DeCoursey
Statistics and probability for engineering applications with Microsoft Excel / / by W. J. DeCoursey
Autore DeCoursey W. J (William J.)
Edizione [1st ed.]
Pubbl/distr/stampa Amsterdam ; ; Boston, : Newnes, c2003
Descrizione fisica 1 online resource (417 p.)
Disciplina 620.001/5195
Soggetto topico Engineering - Statistical methods
ISBN 1-281-04953-0
9786611049539
0-08-048975-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Statistics and Probability for Engineering Applications; Copyright Page; Contents; Preface; List of Symbols; Chapter 1. Introduction: Probability and Statistics; 1.1 Some Important Terms; 1.2 What does this book contain?; Chapter 2. Basic Probability; 2.1 Fundamental Concepts; 2.2 Basic Rules of Combining Probabilities; 2.3 Permutations and Combinations; 2.4 More Complex Problems: Bayes' Rule; Chapter 3. Descriptive Statistics: Summary Numbers; 3.1 Central Location; 3.2 Variability or Spread of the Data; 3.3 Quartiles, Deciles, Percentiles, and Quantiles
3.4 Using a Computer to Calculate Summary NumbersChapter 4. Grouped Frequencies and Graphical Descriptions; 4.1 Stem-and-Leaf Displays; 4.2 Box Plots; 4.3 Frequency Graphs of Discrete Data; 4.4 Continuous Data: Grouped Frequency; 4.5 Use of Computers; Chapter 5. Probability Distributions of Discrete Variables; 5.1 Probability Functions and Distribution Functions; 5.2 Expectation and Variance; 5.3 Binomial Distribution; 5.4 Poisson Distribution; 5.5 Extension: Other Discrete Distributions; 5.6 Relation Between Probability Distributions and Frequency Distributions
Chapter 6. Probability Distributions of Continuous Variables6.1 Probability from the Probability Density Function; 6.2 Expected Value and Variance; 6.3 Extension: Useful Continuous Distributions; 6.4 Extension: Reliability; Chapter 7. The Normal Distribution; 7.1 Characteristics; 7.2 Probability from the Probability Density Function; 7.3 Using Tables for the Normal Distribution; 7.4 Using the Computer; 7.5 Fitting the Normal Distribution to Frequency Data; 7.6 Normal Approximation to a Binomial Distribution; 7.7 Fitting the Normal Distribution to Cumulative Frequency Data
7.8 Transformation of Variables to Give a Normal DistributionChapter 8. Sampling and Combination of Variables; 8.1 Sampling; 8.2 Linear Combination of Independent Variables; 8.3 Variance of Sample Means; 8.4 Shape of Distribution of Sample Means: Central Limit Theorem; Chapter 9. Statistical Inferences for the Mean; 9.1 Inferences for the Mean when Variance Is Known; 9.2 Inferences for the Mean when Variance Is Estimated from a Sample; Chapter 10. Statistical Inferences for Variance and Proportion; 10.1 Inferences for Variance; 10.2 Inferences for Proportion
Chapter 11. Introduction to Design of Experiments11.1 Experimentation vs. Use of Routine Operating Data; 11.2 Scale of Experimentation; 11.3 One-factor-at-a-time vs. Factorial Design; 11.4 Replication; 11.5 Bias Due to Interfering Factors; 11.6 Fractional Factorial Designs; Chapter 12. Introduction to Analysis of Variance; 12.1 One-way Analysis of Variance; 12.2 Two-way Analysis of Variance; 12.3 Analysis of Randomized Block Design; 12.4 Concluding Remarks; Chapter 13. Chi-squared Test for Frequency Distributions; 13.1 Calculation of the Chi-squared Function; 13.2 Case of Equal Probabilities
13.3 Goodness of Fit
Record Nr. UNINA-9910825029003321
DeCoursey W. J (William J.)  
Amsterdam ; ; Boston, : Newnes, c2003
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui