Electronic Nose: Algorithmic Challenges

Product ID : 45522201

---

  Share   Tweet

share more:

---

Galleon Product ID 45522201

Model

Manufacturer

Shipping Dimension Unknown Dimensions
I think this is wrong?

See more product information!

-

₱ 11,835

Price Tracker

via AIR via SEA

Get quote for sea shipping

This item ships longer than average delivery time. Click here to open chat and know how long it will take.

---

BUY NOW!

*Price and Stocks may change without prior notice
*Packaging of actual item may differ from photo shown

---

• Electrical items MAY be 110 volts.
• 7 Day Return Policy
• All products are genuine and original

Pay with

About Electronic Nose: Algorithmic Challenges

Product Description This book presents the key technology of electronic noses, and systematically describes how e-noses can be used to automatically analyse odours. Appealing to readers from the fields of artificial intelligence, computer science, electrical engineering, electronics, and instrumentation science, it addresses three main areas: First, readers will learn how to apply machine learning, pattern recognition and signal processing algorithms to real perception tasks. Second, they will be shown how to make their algorithms match their systems once the algorithms don’t work because of the limitation of hardware resources. Third, readers will learn how to make schemes and solutions when the acquired data from their systems is not stable due to the fundamental issues affecting perceptron devices (e.g. sensors). In brief, the book presents and discusses the key technologies and new algorithmic challenges in electronic noses and artificial olfaction. The goal is to promote the industrial application of electronic nose technology in environmental detection, medical diagnosis, food quality control, explosive detection, etc. and to highlight the scientific advances in artificial olfaction and artificial intelligence. The book offers a good reference guide for newcomers to the topic of electronic noses, because it refers to the basic principles and algorithms. At the same time, it clearly presents the key challenges – such as long-term drift, signal uniqueness, and disturbance – and effective and efficient solutions, making it equally valuable for researchers engaged in the science and engineering of sensors, instruments, chemometrics, etc. From the Back Cover This book presents the key technology of electronic noses, and systematically describes how e-noses can be used to automatically analyse odours. Appealing to readers from the fields of artificial intelligence, computer science, electrical engineering, electronics, and instrumentation science, it addresses three main areas: First, readers will learn how to apply machine learning, pattern recognition and signal processing algorithms to real perception tasks. Second, they will be shown how to make their algorithms match their systems once the algorithms don’t work because of the limitation of hardware resources. Third, readers will learn how to make schemes and solutions when the acquired data from their systems is not stable due to the fundamental issues affecting perceptron devices (e.g. sensors). In brief, the book presents and discusses the key technologies and new algorithmic challenges in electronic noses and artificial olfaction. The goal is to promote the industrial application of electronic nose technology in environmental detection, medical diagnosis, food quality control, explosive detection, etc. and to highlight the scientific advances in artificial olfaction and artificial intelligence. The book offers a good reference guide for newcomers to the topic of electronic noses, because it refers to the basic principles and algorithms. At the same time, it clearly presents the key challenges – such as long-term drift, signal uniqueness, and disturbance – and effective and efficient solutions, making it equally valuable for researchers engaged in the science and engineering of sensors, instruments, chemometrics, etc. About the Author Dr. Lei Zhang received his Ph.D degree in Circuits and Systems from the College of Communication Engineering, Chongqing University, China, in 2013. He was selected as a Hong Kong Scholar in China in 2013, and worked as a Postdoctoral Fellow at The Hong Kong Polytechnic University from 2013 to 2015. He was also a short-term Visiting Scholar at Tsinghua University and Harbin Institute of Technology (Shenzhen Graduate School). He was a Senior Visiting Scholar at the University of Macau from 2017 to 2018. He is currently a Professor/Distinguished Research Fellow at Chongqing University. Dr. Zhang has authored more than 70 scientifi