Introduction to Machine Olfaction Devices

Introduction to Machine Olfaction Devices discusses the various aspects of a MOD device, from historical approaches to state-of-the-art technologies. This book also covers the mechanism in dealing and detecting gases, odor, and aroma. Problems and solutions relevant to present day design have been outlined as well as a step-by-step guide to Machine Olfaction Device (MOD) design. Sensors and gas systems, along with polymers and certain manufacturing processes, have been discussed, together with other relevant materials for the MOD process and functions including comparison and validations, data processing, data analysis, MOD new design, micro systems, and monitoring systems.

Aimed at developing a novel and improved MOD with more efficient on-board data processing capability for monitoring applications, this book will help you to design an MOD with

a faster stabilizing base line;

a quicker sample result display;

an ability to use ambient air;

a low power consumption; and

the ability to deal with different varieties of organic/inorganic samples.

With a focus on the most important and relevant aspects of designing MODs which currently require a solution, topics covered include MOD and market issues, cost, technical issues, and MOD applications.

With a huge range of potential applications, this book will be of special interest to those working (or studying) in this field at every level, from Biomedical, Energy, or Electrical Engineers, to Computer or Food Scientists.

Introduction to Machine Olfaction Devices discusses the various aspects of a MOD device, from historical approaches to state-of-the-art technologies. This book also covers the mechanism in dealing and detecting gases, odor, and aroma. Problems and solutions relevant to present day design have been outlined as well as a step-by-step guide to Machine Olfaction Device (MOD) design. Sensors and gas systems, along with polymers and certain manufacturing processes, have been discussed, together with other relevant materials for the MOD process and functions including comparison and validations, data processing, data analysis, MOD new design, micro systems, and monitoring systems.

Aimed at developing a novel and improved MOD with more efficient on-board data processing capability for monitoring applications, this book will help you to design an MOD with

a faster stabilizing base line;

a quicker sample result display;

an ability to use ambient air;

a low power consumption; and

the ability to deal with different varieties of organic/inorganic samples.

With a focus on the most important and relevant aspects of designing MODs which currently require a solution, topics covered include MOD and market issues, cost, technical issues, and MOD applications.

With a huge range of potential applications, this book will be of special interest to those working (or studying) in this field at every level, from Biomedical, Energy, or Electrical Engineers, to Computer or Food Scientists.

Cover image
Title page
Table of Contents
Copyright
Dedication
List of Figures
List of Tables
List of Boxes
Preface
Acknowledgments
List of Abbreviations
1. Background, materials, and process
Abstract
1.1 Introduction
1.2 Problems and solutions
1.3 MOD design
1.4 Why this book?
1.5 Background and current state of technology
1.6 Gas sensing systems
1.7 Dynamic olfactometry
1.8 Sensor drift
References
2. Comparison and validations
Abstract
2.1 Background
2.2 How does it work?
2.3 zNose
2.4 eNose
2.5 SMart nose
2.6 Machine olfaction device validation (standard analytical method)
2.7 Software
2.8 Data processing
References
3. MOD data and data analysis
Abstract
3.1 Data analysis
3.2 Useful terms
References
4. Applications
Abstract
4.1 Medicine
4.2 Food
4.3 Security
4.4 Bacteriological
4.5 Industrial
4.6 Environmental
References
5. Biosensors and machine olfaction device design
Abstract
5.1 Biosensors
5.2 System design
References
6. Microsystem
Abstract
6.1 System requirements
6.2 Screen printing techniques (e.g., MMOS sensor/acoustic wave biosensors)
6.3 Micro total-analysis system
6.4 Materials
6.5 Microfabrications
References
7. Nanoelectronic systems
Abstract
7.1 What is nanoelectronics?
7.2 Why nanoelectronics?
7.3 Lithography
7.4 Nanotubes
7.5 Quantum dots
7.6 Conductivity of molecules and single-electron transport
7.7 The problem of contact
7.8 Microelectronic and nanoelectronic devices
7.9 Spintronics
7.10 Molecular diodes and molecular switches
7.11 MOD and nanoelectronic system
References
8. Machine olfaction device nanostructure coating
Abstract
8.1 Molybdenum nitride
8.2 Analytical techniques and samples
8.3 TEM sample preparation
8.4 Scanning electron microscopy
8.5 X-ray photoelectron spectroscopy
8.6 X-ray diffraction
8.7 Analysis of results
8.8 Crystal structure
References
9. Tests and training
Abstract
9.1 The device
9.2 Samples
9.3 Applying methodology to the samples
9.4 Data analysis
9.5 Results and discussion
9.6 AI training
9.7 Machine olfaction device and artificial intelligence
References
10. Review and MOD future implications
Abstract
10.1 Objectives and review
10.2 Review of nanotechnology
10.3 Device sampling
10.4 Sensors
10.5 Online processing and network
10.6 Embedded MOD
10.7 MOD market
10.8 MOD future development
References
Index

Life Sciences

Physical Sciences & Engineering

Social Sciences & Humanities

Health

Introduction to Machine Olfaction Devices

Purchase options

BLOOM INTO SPRING SAVINGS

Institutional subscription on ScienceDirect

Najib Altawell

Related books