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CMOS biomicrosystems : where electronics meets biology / / edited by Krzysztof Iniewski
| CMOS biomicrosystems : where electronics meets biology / / edited by Krzysztof Iniewski |
| Autore | Iniewski Krzysztof <1960-> |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : Wiley, , c2011 |
| Descrizione fisica | 1 online resource (516 p.) |
| Disciplina |
610.28
621.381 |
| Altri autori (Persone) | IniewskiKrzysztof |
| Soggetto topico |
Integrated circuits
Metal oxide semiconductors, Complementary |
| ISBN |
1-283-08208-X
9786613082084 1-118-01648-3 1-118-01649-1 1-118-01647-5 |
| Classificazione | TEC008070 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface -- Contributors -- PART I: HUMAN BODY MONITORING -- 1 INTERFACING BIOLOGY AND CIRCUITS: QUANTIFICATION AND PERFORMANCE METRICS (Alexander J. Casson and Esther Rodriguez-Villegas) -- 2 FULLY INTEGRATED SYSTEMS FOR NEURAL SIGNAL RECORDING: TECHNOLOGY PERSPECTIVE AND LOW-NOISE FRONT-END DESIGN (Andrea Bonfanti, Tommaso Borghi, Guido Zambra, and Andrea L. Lacaita) -- 3 VLSI IMPLEMENTATION OF WIRELESS NEURAL RECORDING MICROSYSTEM FOR NEUROMUSCULAR STIMULATION (Shuenn-Yuh Lee, Chih-Jen Cheng, Shyh-Chyang Lee, and Qiang Fang) -- 4 HEALTH-CARE DEVICES USING RADIO FREQUENCY TECHNOLOGY (Jung Han Choi and Dong Kyun Kim) -- 5 DESIGN CONSIDERATIONS OF LOW-POWER DIGITAL INTEGRATED SYSTEMS FOR IMPLANTABLE MEDICAL APPLICATIONS (Zhihua Wang, Xiang Xie, Xinkai Chen, and Xiaowen Li) -- PART II: BIOSENSORS AND CIRCUITS -- 6 AFFINITY-BASED BIOSENSORS: STOCHASTIC MODELING AND FIGURES OF MERIT (Shreepriya Das, Haris Vikalo, and Arjang Hassibi) -- 7 FABRICATION EXAMPLES BASED ON STANDARD CMOS AND MEMS PROCESSES (Bernard Courtois) -- 8 CMOS CAPACITIVE BIOINTERFACES FOR LAB-ON-CHIP APPLICATIONS (Ebrahim Ghafar-Zadeh) -- 9 LENSFREE IMAGING CYTOMETRY AND DIAGNOSTICS FOR POINT-OF-CARE AND TELEMEDICINE APPLICATIONS (Sungkyu Seo, Ting-Wei Su, Anthony Erlinger, and Aydogan Ozcan) -- 10 ADVANCED TECHNOLOGIES FOR REAL-TIME MONITORING AND CONTROL IN BIOMICROFLUIDICS (Francesca Sapuppo, Marcos Intaglietta, and Maide Bucolo) -- 11 MONITORING OF STEM CELL CULTURE PROCESS USING ELECTROCHEMICAL BIOSENSORS (Xicai Yue and Emmanuel M. Drakakis) -- PART III: EMERGING TECHNOLOGIES -- 12 BUILDING INTERFACES TO DEVELOPING CELLS AND ORGANISMS: FROM CYBORG BEETLES TO SYNTHETIC BIOLOGY (Hirotaka Sato, Daniel Cohen, and Michel M. Maharbiz) -- 13 TECHNOLOGIES FOR ARRAYED SINGLE-CELL BIOLOGY (Sarah C. McQuaide, James R. Etzkorn, and Babak A. Parviz) -- 14 APPLICATION OF BACTERIAL FLAGELLAR MOTORS IN MICROFLUIDIC SYSTEMS (Steve Tung, Jin-Woo Kim, and Ryan Pooran) -- 15 GENE INJECTION AND MANIPULATION USING CMOS-BASED TECHNOLOGIES (Arati Sridharan and Jit Muthuswamy).
16 LOW-COST DIAGNOSTICS: RF DESIGNER'S APPROACH (Nan Sun, Yong Liu, and Donhee Ham) -- Index. |
| Altri titoli varianti | CMOS Bio-Microsystems : Where Electronics Meets Biology |
| Record Nr. | UNINA-9910139451603321 |
Iniewski Krzysztof <1960->
|
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| Hoboken, New Jersey : , : Wiley, , c2011 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
CMOS biomicrosystems : where electronics meets biology / / edited by Krzysztof Iniewski
| CMOS biomicrosystems : where electronics meets biology / / edited by Krzysztof Iniewski |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | Hoboken, NJ, : Wiley, 2010 |
| Descrizione fisica | 1 online resource (516 p.) |
| Disciplina |
610.28
621.381 |
| Altri autori (Persone) | IniewskiKrzysztof |
| Soggetto topico |
Integrated circuits
Metal oxide semiconductors, Complementary |
| ISBN |
1-283-08208-X
9786613082084 1-118-01648-3 1-118-01649-1 1-118-01647-5 |
| Classificazione | TEC008070 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface -- Contributors -- PART I: HUMAN BODY MONITORING -- 1 INTERFACING BIOLOGY AND CIRCUITS: QUANTIFICATION AND PERFORMANCE METRICS (Alexander J. Casson and Esther Rodriguez-Villegas) -- 2 FULLY INTEGRATED SYSTEMS FOR NEURAL SIGNAL RECORDING: TECHNOLOGY PERSPECTIVE AND LOW-NOISE FRONT-END DESIGN (Andrea Bonfanti, Tommaso Borghi, Guido Zambra, and Andrea L. Lacaita) -- 3 VLSI IMPLEMENTATION OF WIRELESS NEURAL RECORDING MICROSYSTEM FOR NEUROMUSCULAR STIMULATION (Shuenn-Yuh Lee, Chih-Jen Cheng, Shyh-Chyang Lee, and Qiang Fang) -- 4 HEALTH-CARE DEVICES USING RADIO FREQUENCY TECHNOLOGY (Jung Han Choi and Dong Kyun Kim) -- 5 DESIGN CONSIDERATIONS OF LOW-POWER DIGITAL INTEGRATED SYSTEMS FOR IMPLANTABLE MEDICAL APPLICATIONS (Zhihua Wang, Xiang Xie, Xinkai Chen, and Xiaowen Li) -- PART II: BIOSENSORS AND CIRCUITS -- 6 AFFINITY-BASED BIOSENSORS: STOCHASTIC MODELING AND FIGURES OF MERIT (Shreepriya Das, Haris Vikalo, and Arjang Hassibi) -- 7 FABRICATION EXAMPLES BASED ON STANDARD CMOS AND MEMS PROCESSES (Bernard Courtois) -- 8 CMOS CAPACITIVE BIOINTERFACES FOR LAB-ON-CHIP APPLICATIONS (Ebrahim Ghafar-Zadeh) -- 9 LENSFREE IMAGING CYTOMETRY AND DIAGNOSTICS FOR POINT-OF-CARE AND TELEMEDICINE APPLICATIONS (Sungkyu Seo, Ting-Wei Su, Anthony Erlinger, and Aydogan Ozcan) -- 10 ADVANCED TECHNOLOGIES FOR REAL-TIME MONITORING AND CONTROL IN BIOMICROFLUIDICS (Francesca Sapuppo, Marcos Intaglietta, and Maide Bucolo) -- 11 MONITORING OF STEM CELL CULTURE PROCESS USING ELECTROCHEMICAL BIOSENSORS (Xicai Yue and Emmanuel M. Drakakis) -- PART III: EMERGING TECHNOLOGIES -- 12 BUILDING INTERFACES TO DEVELOPING CELLS AND ORGANISMS: FROM CYBORG BEETLES TO SYNTHETIC BIOLOGY (Hirotaka Sato, Daniel Cohen, and Michel M. Maharbiz) -- 13 TECHNOLOGIES FOR ARRAYED SINGLE-CELL BIOLOGY (Sarah C. McQuaide, James R. Etzkorn, and Babak A. Parviz) -- 14 APPLICATION OF BACTERIAL FLAGELLAR MOTORS IN MICROFLUIDIC SYSTEMS (Steve Tung, Jin-Woo Kim, and Ryan Pooran) -- 15 GENE INJECTION AND MANIPULATION USING CMOS-BASED TECHNOLOGIES (Arati Sridharan and Jit Muthuswamy).
16 LOW-COST DIAGNOSTICS: RF DESIGNER'S APPROACH (Nan Sun, Yong Liu, and Donhee Ham) -- Index. |
| Record Nr. | UNINA-9910817208803321 |
| Hoboken, NJ, : Wiley, 2010 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Design for embedded image processing on FPGAs / / Donald G. Bailey
| Design for embedded image processing on FPGAs / / Donald G. Bailey |
| Autore | Bailey Donald G (Donald Graeme), <1962-> |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | New York, NY : , : Wiley, , 2011 |
| Descrizione fisica | 1 online resource (508 p.) |
| Disciplina | 621.39/9 |
| Soggetto topico |
Embedded computer systems
Field programmable gate arrays |
| ISBN |
6613175161
0-470-82852-8 1-283-17516-9 0-470-82850-1 9786613175168 |
| Classificazione | TEC008070 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface -- Acknowledgements -- 1 Image Processing -- 1.1 Basic Definitions -- 1.2 Image Formation -- 1.3 Image Processing Operations -- 1.4 Example Application -- 1.5 Real-Time Image Processing -- 1.6 Embedded Image Processing -- 1.7 Serial Processing -- 1.8 Parallelism -- 1.9 Hardware Image Processing Systems -- 2 Field Programmable Gate Arrays -- 2.1 Programmable Logic -- 2.2 FPGAs and Image Processing -- 2.3 Inside an FPGA -- 2.4 FPGA Families and Features -- 2.5 Choosing an FPGA or Development Board -- 3 Languages -- 3.1 Hardware Description Languages -- 3.2 Software-Based Languages -- 3.3 Visual Languages -- 3.4 Summary -- 4 Design Process -- 4.1 Problem Specification -- 4.2 Algorithm Development -- 4.3 Architecture Selection -- 4.4 System Implementation -- 4.5 Designing for Tuning and Debugging -- 5 Mapping Techniques -- 5.1 Timing Constraints -- 5.2 Memory Bandwidth Constraints -- 5.3 Resource Constraints -- 5.4 Computational Techniques -- 5.5 Summary -- 6 Point Operations -- 6.1 Point Operations on a Single Image -- 6.2 Point Operations on Multiple Images -- 6.3 Colour Image Processing -- 6.4 Summary -- 7 Histogram Operations -- 7.1 Greyscale Histogram -- 7.2 Multidimensional Histograms -- 8 Local Filters -- 8.1 Caching -- 8.2 Linear Filters -- 8.3 Nonlinear Filters -- 8.4 Rank Filters -- 8.5 Colour Filters -- 8.6 Morphological Filters -- 8.7 Adaptive Thresholding -- 8.8 Summary -- 9 Geometric Transformations -- 9.1 Forward Mapping -- 9.2 Reverse Mapping -- 9.3 Interpolation -- 9.4 Mapping Optimisations -- 9.5 Image Registration -- 10 Linear Transforms -- 10.1 Fourier Transform -- 10.2 Discrete Cosine Transform -- 10.3 Wavelet Transform -- 10.4 Image and Video Coding -- 11 Blob Detection and Labelling -- 11.1 Bounding Box -- 11.2 Run-Length Coding -- 11.3 Chain Coding -- 11.4 Connected Component Labelling -- 11.5 Distance Transform -- 11.6 Watershed Transform -- 11.7 Hough Transform -- 11.8 Summary -- 12 Interfacing -- 12.1 Camera Input -- 12.2 Display Output.
12.3 Serial Communication -- 12.4 Memory -- 12.5 Summary -- 13 Testing, Tuning and Debugging -- 13.1 Design -- 13.2 Implementation -- 13.3 Tuning -- 13.4 Timing Closure -- 14 Example Applications -- 14.1 Coloured Region Tracking -- 14.2 Lens Distortion Correction -- 14.3 Foveal Sensor -- 14.4 Range Imaging -- 14.5 Real-Time Produce Grading -- 14.6 Summary -- References -- Index. |
| Record Nr. | UNINA-9910141085303321 |
|
Bailey Donald G (Donald Graeme), <1962->
|
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| New York, NY : , : Wiley, , 2011 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Embedded systems [[electronic resource] ] : hardware, design, and implementation / / edited by Krzysztof Iniewski
| Embedded systems [[electronic resource] ] : hardware, design, and implementation / / edited by Krzysztof Iniewski |
| Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, Inc., 2013 |
| Descrizione fisica | 1 online resource (387 p.) |
| Disciplina | 006.2/2 |
| Altri autori (Persone) | IniewskiKrzysztof |
| Soggetto topico | Embedded computer systems |
| ISBN |
1-118-46865-1
1-283-73564-4 1-118-46861-9 |
| Classificazione | TEC008070 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Title page; Copyright page; Contents; Preface; Contributors; 1: Low Power Multicore Processors for Embedded Systems; 1.1 Multicore Chip with Highly Efficient Cores; 1.2 SuperHTM RISC Engine Family (SH) Processor Cores; 1.2.1 History of SH Processor Cores; 1.2.2 Highly Efficient ISA; 1.2.3 Asymmetric In-Order Dual-Issue Superscalar Architecture; 1.3 SH-X: A Highly Efficient CPU Core; 1.3.1 Microarchitecture Selections; 1.3.2 Improved Superpipeline Structure; 1.3.3 Branch Prediction and Out-of-Order Branch Issue; 1.3.4 Low Power Technologies; 1.3.5 Performance and Efficiency Evaluations
1.4 SH-X FPU: A Highly Efficient FPU1.4.1 FPU Architecture of SH Processors; 1.4.2 Implementation of SH-X FPU; 1.4.3 Performance Evaluations with 3D Graphics Benchmark; 1.5 SH-X2: Frequency and Efficiency Enhanced Core; 1.5.1 Frequency Enhancement; 1.5.2 Low Power Technologies; 1.6 SH-X3: Multicore Architecture Extension; 1.6.1 SH-X3 Core Specifications; 1.6.2 Symmetric and Asymmetric Multiprocessor Support; 1.6.3 Core Snoop Sequence Optimization; 1.6.4 Dynamic Power Management; 1.6.5 RP-1 Prototype Chip; 1.6.6 RP-2 Prototype Chip; 1.7 SH-X4: ISA and Address Space Extension 1.7.1 SH-X4 Core Specifications1.7.2 Efficient ISA Extension; 1.7.3 Address Space Extension; 1.7.4 Data Transfer Unit; 1.7.5 RP-X Prototype Chip; References; 2: Special-Purpose Hardware for Computational Biology; 2.1 Molecular Dynamics Simulations on Graphics Processing Units; 2.1.1 Molecular Mechanics Force Fields; 2.1.2 Graphics Processing Units for MD Simulations; 2.2 Special-Purpose Hardware and Network Topologies for MD Simulations; 2.2.1 High-Throughput Interaction Subsystem; 2.2.2 Hardware Description of the Flexible Subsystem; 2.2.3 Performance and Conclusions 2.3 Quantum MC Applications on Field-Programmable Gate Arrays2.3.1 Energy Computation and WF Kernels; 2.3.2 Hardware Architecture; 2.3.3 PE and WF Computation Kernels; 2.4 Conclusions and Future Directions; References; 3: Embedded GPU Design; 3.1 Introduction; 3.2 System Architecture; 3.3 Graphics Modules Design; 3.3.1 RISC Processor; 3.3.2 Geometry Processor; 3.3.3 Rendering Engine; 3.4 System Power Management; 3.4.1 Multiple Power-Domain Management; 3.4.2 Power Management Unit; 3.5 Implementation Results; 3.5.1 Chip Implementation; 3.5.2 Comparisons; 3.6 Conclusion; References 4: Low-Cost VLSI Architecture for Random Block-Based Access of Pixels in Modern Image Sensors4.1 Introduction; 4.2 The DVP Interface; 4.3 The iBRIDGE-BB Architecture; 4.3.1 Configuring the iBRIDGE-BB; 4.3.2 Operation of the iBRIDGE-BB; 4.3.3 Description of Internal Blocks; 4.4 Hardware Implementation; 4.4.1 Verification in Field-Programmable Gate Array; 4.4.2 Application in Image Compression; 4.4.3 Application-Specific Integrated Circuit (ASIC) Synthesis and Performance Analysis; 4.5 Conclusion; Acknowledgments; References; 5: Embedded Computing Systems on FPGAs; 5.1 FPGA Architecture 5.2 FPGA Configuration Technology |
| Record Nr. | UNINA-9910141415403321 |
| Hoboken, N.J., : John Wiley & Sons, Inc., 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Embedded systems : hardware, design, and implementation / / edited by Krzysztof Iniewski
| Embedded systems : hardware, design, and implementation / / edited by Krzysztof Iniewski |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, Inc., 2013 |
| Descrizione fisica | 1 online resource (387 p.) |
| Disciplina | 006.2/2 |
| Altri autori (Persone) | IniewskiKrzysztof |
| Soggetto topico | Embedded computer systems |
| ISBN |
1-118-46865-1
1-283-73564-4 1-118-46861-9 |
| Classificazione | TEC008070 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Title page; Copyright page; Contents; Preface; Contributors; 1: Low Power Multicore Processors for Embedded Systems; 1.1 Multicore Chip with Highly Efficient Cores; 1.2 SuperHTM RISC Engine Family (SH) Processor Cores; 1.2.1 History of SH Processor Cores; 1.2.2 Highly Efficient ISA; 1.2.3 Asymmetric In-Order Dual-Issue Superscalar Architecture; 1.3 SH-X: A Highly Efficient CPU Core; 1.3.1 Microarchitecture Selections; 1.3.2 Improved Superpipeline Structure; 1.3.3 Branch Prediction and Out-of-Order Branch Issue; 1.3.4 Low Power Technologies; 1.3.5 Performance and Efficiency Evaluations
1.4 SH-X FPU: A Highly Efficient FPU1.4.1 FPU Architecture of SH Processors; 1.4.2 Implementation of SH-X FPU; 1.4.3 Performance Evaluations with 3D Graphics Benchmark; 1.5 SH-X2: Frequency and Efficiency Enhanced Core; 1.5.1 Frequency Enhancement; 1.5.2 Low Power Technologies; 1.6 SH-X3: Multicore Architecture Extension; 1.6.1 SH-X3 Core Specifications; 1.6.2 Symmetric and Asymmetric Multiprocessor Support; 1.6.3 Core Snoop Sequence Optimization; 1.6.4 Dynamic Power Management; 1.6.5 RP-1 Prototype Chip; 1.6.6 RP-2 Prototype Chip; 1.7 SH-X4: ISA and Address Space Extension 1.7.1 SH-X4 Core Specifications1.7.2 Efficient ISA Extension; 1.7.3 Address Space Extension; 1.7.4 Data Transfer Unit; 1.7.5 RP-X Prototype Chip; References; 2: Special-Purpose Hardware for Computational Biology; 2.1 Molecular Dynamics Simulations on Graphics Processing Units; 2.1.1 Molecular Mechanics Force Fields; 2.1.2 Graphics Processing Units for MD Simulations; 2.2 Special-Purpose Hardware and Network Topologies for MD Simulations; 2.2.1 High-Throughput Interaction Subsystem; 2.2.2 Hardware Description of the Flexible Subsystem; 2.2.3 Performance and Conclusions 2.3 Quantum MC Applications on Field-Programmable Gate Arrays2.3.1 Energy Computation and WF Kernels; 2.3.2 Hardware Architecture; 2.3.3 PE and WF Computation Kernels; 2.4 Conclusions and Future Directions; References; 3: Embedded GPU Design; 3.1 Introduction; 3.2 System Architecture; 3.3 Graphics Modules Design; 3.3.1 RISC Processor; 3.3.2 Geometry Processor; 3.3.3 Rendering Engine; 3.4 System Power Management; 3.4.1 Multiple Power-Domain Management; 3.4.2 Power Management Unit; 3.5 Implementation Results; 3.5.1 Chip Implementation; 3.5.2 Comparisons; 3.6 Conclusion; References 4: Low-Cost VLSI Architecture for Random Block-Based Access of Pixels in Modern Image Sensors4.1 Introduction; 4.2 The DVP Interface; 4.3 The iBRIDGE-BB Architecture; 4.3.1 Configuring the iBRIDGE-BB; 4.3.2 Operation of the iBRIDGE-BB; 4.3.3 Description of Internal Blocks; 4.4 Hardware Implementation; 4.4.1 Verification in Field-Programmable Gate Array; 4.4.2 Application in Image Compression; 4.4.3 Application-Specific Integrated Circuit (ASIC) Synthesis and Performance Analysis; 4.5 Conclusion; Acknowledgments; References; 5: Embedded Computing Systems on FPGAs; 5.1 FPGA Architecture 5.2 FPGA Configuration Technology |
| Record Nr. | UNINA-9910819603603321 |
| Hoboken, N.J., : John Wiley & Sons, Inc., 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
FlexRay and its applications [[electronic resource] ] : real time multiplexed network / / Dominique Paret
| FlexRay and its applications [[electronic resource] ] : real time multiplexed network / / Dominique Paret |
| Autore | Paret Dominique |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, 2012 |
| Descrizione fisica | 1 online resource (336 p.) |
| Disciplina | 629.2/72 |
| Soggetto topico |
FlexRay (Computer network protocol)
Motor vehicles - Electronic equipment Motor vehicles - Automatic control Automotive computers Adaptive control systems |
| ISBN |
1-282-25406-5
9786613814715 1-119-96406-7 1-119-96405-9 |
| Classificazione | TEC008070 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Contents; Preface; List of Abbreviations; Part A: 'Secure Real Time' Applications; 1 Reminders about the CAN Protocol; 1.1 The Limitations of CAN; 1.2 'Event-Triggered' and 'Time-Triggered' Aspects; 1.2.1 The Probabilistic Side of CAN; 1.2.2 The Deterministic Side of Applications; 2 The TTCAN Protocol; 2.1 TTCAN - ISO 11898-4; 2.2 Session Layer; 2.3 Principle of Operation of TTCAN; 3 Emergence of 'X-by-Wire' Systems; 3.1 High Throughput and X-by-Wire; 3.2 Redundancy; 3.3 High-Level Application Requirements; 3.3.1 The Number of Communication Systems is Growing
3.3.2 The Electronic Architecture Must be Common to Several Vehicle Platforms 3.3.3 Some Things the Architecture of the Communication Network and the Nodes Must Allow; 3.4 High-Level Functional Requirements; 3.4.1 Speed of Communication; 3.4.2 Physical Layer; 3.4.3 Access to and Management of the Medium; 3.4.4 Synchronisation Method; 3.4.5 Network Topologies; 3.4.6 Requirements at System Level; Part B: The Flexray Concept and Its Communication Protocol; 4 The Genesis of FlexRay; 4.1 The TTP/C Protocol; 4.2 FlexRay; 4.2.1 The Genesis of FlexRay; 4.3 The FlexRay Consortium 4.4 The Aim of FlexRay 4.4.1 A Flexible Configuration; 4.4.2 Solutions; 5 FlexRay and Real Time; 5.1 Physical Time; 5.2 Local Time; 5.2.1 Local Clock; 5.2.2 'Clock Tick' and Microticks; 5.2.3 In Practice; 5.3 Global View at Network Level - Global Time; 5.3.1 Concept of Global Time; 5.3.2 Macrotick (MT); 5.3.3 And the Bit Time - What's Happening to it Inside There?; 5.4 Summarizing: Time and its Hierarchies in FlexRay; 6 The FlexRay Protocol; 6.1 History; 6.2 General - Channels, Cycles, Segments and Slots; 6.2.1 Philosophy of the Protocol 6.2.2 Hierarchy and Overall Form of FlexRay Communication 6.3 Channels and Cycles; 6.3.1 Communication Channel(s); 6.3.2 Communication Cycle; 6.4 Segments; 6.4.1 A Little Philosophy about Static and Dynamic Segments and Their Purposes; 6.4.2 Slots and Minislots; 6.4.3 Static Segments and Slots; 6.4.4 Dynamic Segments and Minislots; 6.4.5 Summary; 6.5 Communication Frames; 6.5.1 Overview of Frames; 6.5.2 Common Constituent Parts of Static and Dynamic Frames; 6.5.3 Encapsulation and Coding of Frames of Logical Data in Slots and Minislots 6.5.4 . . . for Frames which are Transported during Static and Dynamic Segments 6.6 'SW - Symbol Window' Segment; 6.7 'NIT - Network Idle Time' Segment; 7 Access to the Physical Layer; 7.1 Definition of Tasks; 7.2 Execution of the Communication Cycle; 7.3 Frame ID (11 Bits); 7.4 Arbitration Grid Level; 7.4.1 Basic Concepts; 7.4.2 Policy for Access to the Medium; 7.5 Conditions of Transmission and Access to the Medium during the Static Segment; 7.6 Conditions of Transmission and Access to the Medium during the Dynamic Segment; 7.6.1 Access to the Medium during the Dynamic Segment - Example 1 7.6.2 Particular, Difficult Choice of Hierarchy of Frame ID - Example 2 |
| Record Nr. | UNINA-9910139691503321 |
|
Paret Dominique
|
||
| Hoboken, N.J., : Wiley, 2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
FlexRay and its applications : real time multiplexed network / / Dominique Paret
| FlexRay and its applications : real time multiplexed network / / Dominique Paret |
| Autore | Paret Dominique |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, 2012 |
| Descrizione fisica | 1 online resource (336 p.) |
| Disciplina | 629.2/72 |
| Soggetto topico |
FlexRay (Computer network protocol)
Motor vehicles - Electronic equipment Motor vehicles - Automatic control Automotive computers Adaptive control systems |
| ISBN |
1-282-25406-5
9786613814715 1-119-96406-7 1-119-96405-9 |
| Classificazione | TEC008070 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Contents; Preface; List of Abbreviations; Part A: 'Secure Real Time' Applications; 1 Reminders about the CAN Protocol; 1.1 The Limitations of CAN; 1.2 'Event-Triggered' and 'Time-Triggered' Aspects; 1.2.1 The Probabilistic Side of CAN; 1.2.2 The Deterministic Side of Applications; 2 The TTCAN Protocol; 2.1 TTCAN - ISO 11898-4; 2.2 Session Layer; 2.3 Principle of Operation of TTCAN; 3 Emergence of 'X-by-Wire' Systems; 3.1 High Throughput and X-by-Wire; 3.2 Redundancy; 3.3 High-Level Application Requirements; 3.3.1 The Number of Communication Systems is Growing
3.3.2 The Electronic Architecture Must be Common to Several Vehicle Platforms 3.3.3 Some Things the Architecture of the Communication Network and the Nodes Must Allow; 3.4 High-Level Functional Requirements; 3.4.1 Speed of Communication; 3.4.2 Physical Layer; 3.4.3 Access to and Management of the Medium; 3.4.4 Synchronisation Method; 3.4.5 Network Topologies; 3.4.6 Requirements at System Level; Part B: The Flexray Concept and Its Communication Protocol; 4 The Genesis of FlexRay; 4.1 The TTP/C Protocol; 4.2 FlexRay; 4.2.1 The Genesis of FlexRay; 4.3 The FlexRay Consortium 4.4 The Aim of FlexRay 4.4.1 A Flexible Configuration; 4.4.2 Solutions; 5 FlexRay and Real Time; 5.1 Physical Time; 5.2 Local Time; 5.2.1 Local Clock; 5.2.2 'Clock Tick' and Microticks; 5.2.3 In Practice; 5.3 Global View at Network Level - Global Time; 5.3.1 Concept of Global Time; 5.3.2 Macrotick (MT); 5.3.3 And the Bit Time - What's Happening to it Inside There?; 5.4 Summarizing: Time and its Hierarchies in FlexRay; 6 The FlexRay Protocol; 6.1 History; 6.2 General - Channels, Cycles, Segments and Slots; 6.2.1 Philosophy of the Protocol 6.2.2 Hierarchy and Overall Form of FlexRay Communication 6.3 Channels and Cycles; 6.3.1 Communication Channel(s); 6.3.2 Communication Cycle; 6.4 Segments; 6.4.1 A Little Philosophy about Static and Dynamic Segments and Their Purposes; 6.4.2 Slots and Minislots; 6.4.3 Static Segments and Slots; 6.4.4 Dynamic Segments and Minislots; 6.4.5 Summary; 6.5 Communication Frames; 6.5.1 Overview of Frames; 6.5.2 Common Constituent Parts of Static and Dynamic Frames; 6.5.3 Encapsulation and Coding of Frames of Logical Data in Slots and Minislots 6.5.4 . . . for Frames which are Transported during Static and Dynamic Segments 6.6 'SW - Symbol Window' Segment; 6.7 'NIT - Network Idle Time' Segment; 7 Access to the Physical Layer; 7.1 Definition of Tasks; 7.2 Execution of the Communication Cycle; 7.3 Frame ID (11 Bits); 7.4 Arbitration Grid Level; 7.4.1 Basic Concepts; 7.4.2 Policy for Access to the Medium; 7.5 Conditions of Transmission and Access to the Medium during the Static Segment; 7.6 Conditions of Transmission and Access to the Medium during the Dynamic Segment; 7.6.1 Access to the Medium during the Dynamic Segment - Example 1 7.6.2 Particular, Difficult Choice of Hierarchy of Frame ID - Example 2 |
| Record Nr. | UNINA-9910824733303321 |
|
Paret Dominique
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| Hoboken, N.J., : Wiley, 2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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The physics of microdroplets [[electronic resource] /] / Jean Berthier and Kenneth A. Brakke
| The physics of microdroplets [[electronic resource] /] / Jean Berthier and Kenneth A. Brakke |
| Autore | Berthier Jean <1952-> |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, Inc |
| Descrizione fisica | 1 online resource (392 p.) |
| Disciplina | 532/.05 |
| Altri autori (Persone) | BrakkeKenneth A |
| Soggetto topico |
Microdroplets
Microfluidics Capillarity |
| ISBN |
1-280-67921-2
9786613656148 1-118-40133-6 1-118-40132-8 1-118-40130-1 |
| Classificazione | TEC008070 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Machine generated contents note: Preface xviii Acknowledgements xxi Introduction 1 1. Fundamentals of Capillarity 5 1.1 Abstract 5 -- 1.2 Interfaces and Surface Tension 5 -- 1.3 Laplace's Law and Applications 13 -- 1.4 Measuring the Surface Tension of Liquids 48 -- 1.5 Minimization of the Surface Energy and Minimal Surfaces 59 -- 1.6 References 61 -- 2. Minimal Energy and Stability Rubrics 65 -- 2.1 Abstract 65 -- 2.2 Spherical Shapes as Energy Minimizers 66 -- 2.3 Symmetrization and the Rouloids 70 -- 2.4 Increasing Pressure and Stability 75 -- 2.5 The Double-Bubble Instability 78 -- 2.6 Conclusion 81 -- 2.7 References 82 -- 3. Droplets: Shape, Surface and Volume 83 -- 3.1 Abstract 83 -- 3.2 The Shape of Micro-drops 84 -- 3.3 Electric Bonds Number 85 -- 3.4 Shape, Surface Area and Volume of Sessile Droplets 85 -- 3.5 Conclusion 103 -- 3.6 References 103 -- 4. Sessile Droplets 105 -- 4.1 Abstract 105 -- 4.2 Droplet Self-motion Under the Effect of a Contrast or Gradient of Wettability 105 -- 4.3 Contact Angle Hysteresis 112 -- 4.4 Pinning and Canthotaxis 115 -- 4.5 Sessile Droplet on a Non-ideally Planar Surface 122 -- 4.6 Droplet on Textured or Patterned Substrates 123 -- 4.7 References 140 -- 5. Droplets Between Two Non-parallel Planes: from Tapered Planes to Wedges 143 -- 5.1 Abstract 143 -- 5.2 Droplet Self-motion Between Two Non-parallel Planes 143 -- 5.3 Droplet in a Corner 151 -- 5.4 Conclusion 159 -- 5.5 References 159 -- 6. Microdrops in Microchannels and Microchambers 161 -- 6.1 Abstract 161 -- 6.2 Droplets in Micro-wells 161 -- 6.3 Droplets in Microchannels 167 -- 6.4 Conclusion 180 -- 6.5 References 180 -- 7. Capillary Effects: Capillary Rise, Capillary Pumping, and Capillary Valve 183 -- 7.1 Abstract 183 -- 7.2 Capillary Rise 183 -- 7.3 Capillary Pumping 195 -- 7.4 Capillary Valves 202 -- 7.5 Conclusions 207 -- 7.6 References 207 -- 8. Open Microfluidics 209 -- 8.1 Abstract 209 -- 8.2 Droplet Pierced by a Wire 210 -- 8.3 Liquid Spreading Between Solid Structures - Spontaneous Capillary Flow 216 -- 8.4 Liquid Wetting Fibers 239 -- 8.5 Conclusions 247 -- 8.6 References 248 -- 8.7 Appendix: Calculation of the Laplace Pressure for a Droplet on a Horizontal Cylindrical Wire 250 -- 9. Droplets, particles and Interfaces 251 -- 9.1 Abstract 251 -- 9.2 Neumann's Construction for liquid Droplets 251 -- 9.3 The Difference Between Liquid Droplets and Rigid Spheres at an Interface 252 -- 9.4 Liquid Droplet Deposited at a Liquid Surface 253 -- 9.5 Immiscible Droplets in Contact and Engulfment 258 -- 9.6 Non-deformable (Rigid) Sphere at an Interface 262 -- 9.7 Droplet Evaporation and Capillary Assembly 275 -- 9.8 Conclusion 288 -- 9.9 References 290 -- 10. Digital Microfluidics 293 -- 10.1 Abstract 293 -- 10.2 Electrowetting and EWOD 293 -- 10.3 Droplet Manipulation with EWOD 304 -- 10.4 Examples of EWOD in Biotechnology - Cell Manipulation 333 -- 10.5 Examples of Electrowetting for Optics-Tunable Lenses and Electrofluidic Display 335 -- 10.6 Conclusion 336 -- 10.7 References 337 -- 11. Capillary Self-assembly for 3D Microelectronics 341 -- 11.1 Abstract 341 -- 11.2 Ideal Case: Total Pinning on the Chip and Pad Edges 342 -- 11.3 Real Case: Spreading and Wetting 352 -- 11.4 The Importance of Pinning and Confinement 355 -- 11.5 Conclusion 357 -- 11.6 Appendix A: Shift Energy and Restoring Force 358 -- 11.7 Appendix B: Twist Energy and Restoring Torque 359 -- 11.8 Appendix C: Lift Energy and Restoring Force 361 -- 11.9 References 362 -- 12. Epilogue 365 -- Index 367. |
| Record Nr. | UNINA-9910139087903321 |
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Berthier Jean <1952->
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| Hoboken, N.J., : John Wiley & Sons, Inc | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
The physics of microdroplets / / Jean Berthier and Kenneth A. Brakke
| The physics of microdroplets / / Jean Berthier and Kenneth A. Brakke |
| Autore | Berthier Jean <1952-> |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, Inc |
| Descrizione fisica | 1 online resource (392 p.) |
| Disciplina | 532/.05 |
| Altri autori (Persone) | BrakkeKenneth A |
| Soggetto topico |
Microdroplets
Microfluidics Capillarity |
| ISBN |
1-280-67921-2
9786613656148 1-118-40133-6 1-118-40132-8 1-118-40130-1 |
| Classificazione | TEC008070 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Machine generated contents note: Preface xviii Acknowledgements xxi Introduction 1 1. Fundamentals of Capillarity 5 1.1 Abstract 5 -- 1.2 Interfaces and Surface Tension 5 -- 1.3 Laplace's Law and Applications 13 -- 1.4 Measuring the Surface Tension of Liquids 48 -- 1.5 Minimization of the Surface Energy and Minimal Surfaces 59 -- 1.6 References 61 -- 2. Minimal Energy and Stability Rubrics 65 -- 2.1 Abstract 65 -- 2.2 Spherical Shapes as Energy Minimizers 66 -- 2.3 Symmetrization and the Rouloids 70 -- 2.4 Increasing Pressure and Stability 75 -- 2.5 The Double-Bubble Instability 78 -- 2.6 Conclusion 81 -- 2.7 References 82 -- 3. Droplets: Shape, Surface and Volume 83 -- 3.1 Abstract 83 -- 3.2 The Shape of Micro-drops 84 -- 3.3 Electric Bonds Number 85 -- 3.4 Shape, Surface Area and Volume of Sessile Droplets 85 -- 3.5 Conclusion 103 -- 3.6 References 103 -- 4. Sessile Droplets 105 -- 4.1 Abstract 105 -- 4.2 Droplet Self-motion Under the Effect of a Contrast or Gradient of Wettability 105 -- 4.3 Contact Angle Hysteresis 112 -- 4.4 Pinning and Canthotaxis 115 -- 4.5 Sessile Droplet on a Non-ideally Planar Surface 122 -- 4.6 Droplet on Textured or Patterned Substrates 123 -- 4.7 References 140 -- 5. Droplets Between Two Non-parallel Planes: from Tapered Planes to Wedges 143 -- 5.1 Abstract 143 -- 5.2 Droplet Self-motion Between Two Non-parallel Planes 143 -- 5.3 Droplet in a Corner 151 -- 5.4 Conclusion 159 -- 5.5 References 159 -- 6. Microdrops in Microchannels and Microchambers 161 -- 6.1 Abstract 161 -- 6.2 Droplets in Micro-wells 161 -- 6.3 Droplets in Microchannels 167 -- 6.4 Conclusion 180 -- 6.5 References 180 -- 7. Capillary Effects: Capillary Rise, Capillary Pumping, and Capillary Valve 183 -- 7.1 Abstract 183 -- 7.2 Capillary Rise 183 -- 7.3 Capillary Pumping 195 -- 7.4 Capillary Valves 202 -- 7.5 Conclusions 207 -- 7.6 References 207 -- 8. Open Microfluidics 209 -- 8.1 Abstract 209 -- 8.2 Droplet Pierced by a Wire 210 -- 8.3 Liquid Spreading Between Solid Structures - Spontaneous Capillary Flow 216 -- 8.4 Liquid Wetting Fibers 239 -- 8.5 Conclusions 247 -- 8.6 References 248 -- 8.7 Appendix: Calculation of the Laplace Pressure for a Droplet on a Horizontal Cylindrical Wire 250 -- 9. Droplets, particles and Interfaces 251 -- 9.1 Abstract 251 -- 9.2 Neumann's Construction for liquid Droplets 251 -- 9.3 The Difference Between Liquid Droplets and Rigid Spheres at an Interface 252 -- 9.4 Liquid Droplet Deposited at a Liquid Surface 253 -- 9.5 Immiscible Droplets in Contact and Engulfment 258 -- 9.6 Non-deformable (Rigid) Sphere at an Interface 262 -- 9.7 Droplet Evaporation and Capillary Assembly 275 -- 9.8 Conclusion 288 -- 9.9 References 290 -- 10. Digital Microfluidics 293 -- 10.1 Abstract 293 -- 10.2 Electrowetting and EWOD 293 -- 10.3 Droplet Manipulation with EWOD 304 -- 10.4 Examples of EWOD in Biotechnology - Cell Manipulation 333 -- 10.5 Examples of Electrowetting for Optics-Tunable Lenses and Electrofluidic Display 335 -- 10.6 Conclusion 336 -- 10.7 References 337 -- 11. Capillary Self-assembly for 3D Microelectronics 341 -- 11.1 Abstract 341 -- 11.2 Ideal Case: Total Pinning on the Chip and Pad Edges 342 -- 11.3 Real Case: Spreading and Wetting 352 -- 11.4 The Importance of Pinning and Confinement 355 -- 11.5 Conclusion 357 -- 11.6 Appendix A: Shift Energy and Restoring Force 358 -- 11.7 Appendix B: Twist Energy and Restoring Torque 359 -- 11.8 Appendix C: Lift Energy and Restoring Force 361 -- 11.9 References 362 -- 12. Epilogue 365 -- Index 367. |
| Record Nr. | UNINA-9910808250103321 |
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Berthier Jean <1952->
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||
| Hoboken, N.J., : John Wiley & Sons, Inc | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Real-time embedded systems / / Jiacun Wang
| Real-time embedded systems / / Jiacun Wang |
| Autore | Wang Jiacun <1963-> |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : Wiley, , 2017 |
| Descrizione fisica | 1 online resource |
| Disciplina | 006.2/2 |
| Collana | Quantitative Software Engineering Series |
| Soggetto topico |
Embedded computer systems
Real-time data processing |
| ISBN |
1-119-42068-7
1-119-42070-9 1-119-42071-7 |
| Classificazione | TEC008070 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910271009503321 |
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Wang Jiacun <1963->
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| Hoboken, New Jersey : , : Wiley, , 2017 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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