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Artificial Intelligence and Data Science in Environmental Sensing
- 1st Edition - February 9, 2022
- Editors: Mohsen Asadnia, Amir Razmjou, Amin Beheshti
- Language: English
- Paperback ISBN:9 7 8 - 0 - 3 2 3 - 9 0 5 0 8 - 4
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 9 0 5 0 7 - 7
Artificial Intelligence and Data Science in Environmental Sensing provides state-of-the-art information on the inexpensive mass-produced sensors that are used as inputs to artifi… Read more
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Request a sales quoteArtificial Intelligence and Data Science in Environmental Sensing provides state-of-the-art information on the inexpensive mass-produced sensors that are used as inputs to artificial intelligence systems. The book discusses the advances of AI and Machine Learning technologies in material design for environmental areas. It is an excellent resource for researchers and professionals who work in the field of data processing, artificial intelligence sensors and environmental applications.
- Presents tools, connections and proactive solutions to take sustainability programs to the next level
- Offers a practical guide for making students proficient in modern electronic data analysis and graphics
- Provides knowledge and background to develop specific platforms related to environmental sensing, including control water, air and soil quality, water and wastewater treatment, desalination, pollution mitigation/control, and resource management and recovery
Researchers, practitioners, graduate students and undergraduate students in the field of environmental science, AI, electrical, chemical engineering; environment scientists who want to learn data science techniques. Undergraduate students in the field of electrical and chemical engineering, data scientists who want to work in environmental data areas
- Cover image
- Title page
- Table of Contents
- Copyright
- Contributors
- Editor Bio
- Preface
- Chapter 1. Smart sensing technologies for wastewater treatment plants
- 1. Introduction
- 2. Online estimation
- 3. Fault detection and diagnostics
- 4. Multivariate analysis models
- 5. Conclusion and future direction
- Chapter 2. Advancements and artificial intelligence approaches in antennas for environmental sensing
- 1. Printed antennas for wireless sensor networks
- 2. Printed antenna sensors for material characterization
- 3. Epidermal antenna for unobtrusive human-centric wireless communications and sensing
- 4. Artificial intelligence in antenna design
- Chapter 3. Intelligent geo-sensing for moving toward smart, resilient, low emission, and less carbon transport
- 1. Introduction
- 2. The role of transport in the economy and environment
- 3. Geo-sensing; evolution in the geography
- 4. Geographic Information System as a revolution or/and an evolution
- 5. Geo-sensing for moving toward eco-routing and low-emission transport
- 6. Intelligent geo-sensing and AI as a new window to the future
- 7. Conclusion
- Chapter 4. Language of response surface methodology as an experimental strategy for electrochemical wastewater treatment process optimization
- 1. Introduction
- 2. Strategy of response surface methodology
- 3. Practical application of RSM in electrochemical processes for wastewater treatment
- 4. Merits and demerits of RSM
- 5. Conclusions
- Chapter 5. Artificial intelligence and sustainability: solutions to social and environmental challenges
- 1. Introduction
- 2. AI and social change: the case of food and garden waste management
- 3. AI and ecosystem services: insights into bushfire management and renewable energy production
- 4. Challenges of using AI to achieve sustainability
- 5. Implications and conclusion
- Chapter 6. Application of multi-criteria decision-making tools for a site analysis of offshore wind turbines
- 1. Decision-making in renewable energy investments
- 2. Decision-making tools on the development and design of offshore wind power farms
- 3. Background of multiattribute decision-making tools
- 4. Background of multiobjective problems in offshore and wind farms
- Chapter 7. Recent advances of image processing techniques in agriculture
- 1. Introduction
- 2. Application in plants detection
- 3. Application in livestock recognition
- 4. Application in fruits and vegetables recognition
- 5. Conclusion
- Chapter 8. Tuning swarm behavior for environmental sensing tasks represented as coverage problems
- 1. Introduction
- 2. Preliminaries
- 3. System design: swarming for coverage tasks
- 4. Experimental analysis
- 5. Conclusions and future work
- Appendix
- Chapter 9. Machine learning applications for developing sustainable construction materials
- 1. Introduction
- 2. Prediction
- 3. Damage segmentation and detection
- 4. Mixture design
- 5. Multiobjective optimization
- 6. Conclusions
- Chapter 10. The AI-assisted removal and sensor-based detection of contaminants in the aquatic environment
- 1. Introduction
- 2. AI-assisted techniques for PFAS detection and removal
- 3. Sensors for detection of PFAS
- 4. Biosensors
- 5. Disinfection by-products
- 6. AI-assisted techniques for removal of heavy metal
- Chapter 11. Recent progress in biosensors for wastewater monitoring and surveillance
- 1. Introduction
- 2. Principles and working of BES as a biosensor
- 3. Biosensor for various pollutant monitoring
- 4. Photoelectrochemical biosensors
- 5. Biosensors as a perspective to monitor infectious disease outbreak
- 6. Conclusions, future trends, and prospective of biosensors
- Chapter 12. Machine learning in surface plasmon resonance for environmental monitoring
- 1. Introduction
- 2. Surface plasmon resonance
- 3. Environmental hazard monitoring by SPR
- 4. Machine learning algorithms in SPR
- 5. Applications of ML in SPR
- 6. Conclusion and future perspectives
- Index
- No. of pages: 324
- Language: English
- Edition: 1
- Published: February 9, 2022
- Imprint: Academic Press
- Paperback ISBN: 9780323905084
- eBook ISBN: 9780323905077
MA
Mohsen Asadnia
Mohsen Asadnia is a Professor and group lader in Mechatronics-biomechanics and at Macquarie University, Australia. He received his PhD degree in Mechanical Engineering from Nanyang Technological University, Singapore. Prior to joining Macquarie University,
Mohsen had several teaching and research roles with the University of Western Australia,
Massachusetts Institute of Technology and Nanyang Technological University. His research
interest lies in environmental/ biomedical sensors, Artificial Intelligence, and bio-inspired
sensing.
Affiliations and expertise
Professor, Mechatronics-Biomechanics and an ARC DECRA Fellow, Macquarie University, AustraliaAR
Amir Razmjou
Amir Razmjou is an Associate Professor at Edith Cowan University and the Leader of the Mineral Recovery Research Centre (MRRC).
Associate Professor Amir Razmjou (PhD from the University of New South Wales (UNSW), Sydney, Australia, 2012) is an experienced academic and industry professional with over 20 years of expertise in desalination, water treatment, membrane technology, and mineral processing. As a Board Director of the Membrane Society of Australasia (MSA) and Founder of the Mineral Recovery Research Centre (MRRC) at Edith Cowan
University (ECU), Western Australia, Associate Professor Razmjou has made significant contributions to the fields of mining and resource extraction, particularly in lithium processing.
He has published over 200 peer-reviewed articles and secured research funding
exceeding $9.2 million AUD. Dr. Razmjou has received awards such as the 2024 WA FHRI
Fund Innovation Fellow, the 2023 MSA Industry Innovation Award, and the 2021 UTS Chancellor Research Fellow. He has supervised more than 40 master’s and Ph.D. candidates and serves in editorial roles for journals such as Desalination, DWT, and JWPE. At MRRC, he has established a DLE line, including various processes such as membranes, ion exchange, and adsorption at laboratory and pilot scales. His research also includes developing and implementing advanced technologies for DLE’s pretreatment and posttreatment to enhance the Li/TDS ratio and purify the final product to battery-grade
quality"
Affiliations and expertise
Amir Razmjou is an Associate Professor at Edith Cowan University and the Leader of the Mineral Recovery Research Centre (MRRC).AB
Amin Beheshti
Amin Beheshti is a Full Professor of Data Science and the Director of AI-enabled Processes (AIP) Research Centre, School of Computing, Macquarie University. Amin is also the head of the Data Analytics Research Lab and Adjunct Academic in Computer Science at UNSW Sydney. Amin completed his Ph.D. and Postdoc in Computer Science and Engineering at UNSW Sydney and holds a Master and Bachelor in Computer Science both with First Class Honours. He is the leading author of several authored books in data, social, and process analytics, co-authored with other high-profile researchers.
Affiliations and expertise
Director of AI-enabled Processes (AIP) Research Centre and the head of the Data Analytics Research Lab, Department of Computing, Macquarie University, Sydney, AustraliaRead Artificial Intelligence and Data Science in Environmental Sensing on ScienceDirect