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Introduction to Machine Olfaction Devices

  • Book

  • October 2021
  • Elsevier Science and Technology
  • ID: 5315202
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.

Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.

Table of Contents

1. Background, Materials, and Process2. Comparison and Validations3. Machine Olfaction Device Data and Data Analysis4. Applications5. Design6. Micro System and Applications7. Nanoelectronic Systems8. Machine Olfaction Device Nanostructure Coating9. Test and Training10. Review and Machine Olfaction Device Future Implications

Authors

Najib Altawell Consultant in Renewable Energy and Fossil Fuels. Dr. Najib Altawell is a researcher, consultant, and lecturer in renewable energy and fossil fuels, specialized in biomass commercial and technical aspects. He earned his Ph.D. in environmental engineering from the University of Nottingham, MRes in Nanotechnology and Nanoelectronics from Surrey University, BSc (Hon) in Computer Science from Westminster University, and PGC in Teaching from Greenwich University and PGCHEP in higher education programme from Plymouth University. Dr Altawell's current research interests include commercial, technical and economical aspects related to renewable energy, fossil fuels, hybrid sources of energy, rural electrification, off-grid electricity supply, nanotechnology and nanoelectronic, machine olfaction devices (electronic nose) and aspects related to computer science.