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A Neural Network Approach to Fluid Quantity Measurement in Dynamic Environments (Hardcover, 2012 ed.): Edin Terzic, Jenny... A Neural Network Approach to Fluid Quantity Measurement in Dynamic Environments (Hardcover, 2012 ed.)
Edin Terzic, Jenny Terzic, Romesh Nagarajah, Muhammad Alamgir
R2,778 Discovery Miles 27 780 Ships in 10 - 15 working days

Sloshing causes liquid to fluctuate, making accurate level readings difficult to obtain in dynamic environments. The measurement system described uses a single-tube capacitive sensor to obtain an instantaneous level reading of the fluid surface, thereby accurately determining the fluid quantity in the presence of slosh. A neural network based classification technique has been applied to predict the actual quantity of the fluid contained in a tank under sloshing conditions.

In "A neural network approach to fluid quantity measurement in dynamic environments," effects of temperature variations and contamination on the capacitive sensor are discussed, and the authors propose that these effects can also be eliminated with the proposed neural network based classification system. To examine the performance of the classification system, many field trials were carried out on a running vehicle at various tank volume levels that range from 5 L to 50 L. The effectiveness of signal enhancement on the neural network based signal classification system is also investigated. Results obtained from the investigation are compared with traditionally used statistical averaging methods, and proves that the neural network based measurement system can produce highly accurate fluid quantity measurements in a dynamic environment. Although in this case a capacitive sensor was used to demonstrate measurement system this methodology is valid for all types of electronic sensors.

The approach demonstrated in "A neural network approach to fluid quantity measurement in dynamic environments "can be applied to a wide range of fluid quantity measurement applications in the automotive, naval and aviation industries to produce accurate fluid level readings. Students, lecturers, and experts will find the description of current research about accurate fluid level measurement in dynamic environments using neural network approach useful."

Ultrasonic Fluid Quantity Measurement in Dynamic Vehicular Applications - A Support Vector Machine Approach (Hardcover, 2013... Ultrasonic Fluid Quantity Measurement in Dynamic Vehicular Applications - A Support Vector Machine Approach (Hardcover, 2013 ed.)
Jenny Terzic, Edin Terzic, Romesh Nagarajah, Muhammad Alamgir
R4,206 R3,203 Discovery Miles 32 030 Save R1,003 (24%) Ships in 12 - 17 working days

Accurate fluid level measurement in dynamic environments can be assessed using a Support Vector Machine (SVM) approach. SVM is a supervised learning model that analyzes and recognizes patterns. It is a signal classification technique which has far greater accuracy than conventional signal averaging methods. Ultrasonic Fluid Quantity Measurement in Dynamic Vehicular Applications: A Support Vector Machine Approach describes the research and development of a fluid level measurement system for dynamic environments. The measurement system is based on a single ultrasonic sensor. A Support Vector Machines (SVM) based signal characterization and processing system has been developed to compensate for the effects of slosh and temperature variation in fluid level measurement systems used in dynamic environments including automotive applications. It has been demonstrated that a simple -SVM model with Radial Basis Function (RBF) Kernel with the inclusion of a Moving Median filter could be used to achieve the high levels of accuracy required for fluid level measurement in dynamic environments. Aimed toward graduate and postgraduate students, researchers, and engineers studying applications of artificial intelligence, readers will learn about a measurement system that is based on a single ultrasonic sensor which can achieve the high levels of accuracy required for fluid level measurement in dynamic environments.

Ultrasonic Fluid Quantity Measurement in Dynamic Vehicular Applications - A Support Vector Machine Approach (Paperback, 2013... Ultrasonic Fluid Quantity Measurement in Dynamic Vehicular Applications - A Support Vector Machine Approach (Paperback, 2013 ed.)
Jenny Terzic, Edin Terzic, Romesh Nagarajah, Muhammad Alamgir
R3,150 Discovery Miles 31 500 Ships in 10 - 15 working days

Accurate fluid level measurement in dynamic environments can be assessed using a Support Vector Machine (SVM) approach. SVM is a supervised learning model that analyzes and recognizes patterns. It is a signal classification technique which has far greater accuracy than conventional signal averaging methods. Ultrasonic Fluid Quantity Measurement in Dynamic Vehicular Applications: A Support Vector Machine Approach describes the research and development of a fluid level measurement system for dynamic environments. The measurement system is based on a single ultrasonic sensor. A Support Vector Machines (SVM) based signal characterization and processing system has been developed to compensate for the effects of slosh and temperature variation in fluid level measurement systems used in dynamic environments including automotive applications. It has been demonstrated that a simple -SVM model with Radial Basis Function (RBF) Kernel with the inclusion of a Moving Median filter could be used to achieve the high levels of accuracy required for fluid level measurement in dynamic environments. Aimed toward graduate and postgraduate students, researchers, and engineers studying applications of artificial intelligence, readers will learn about a measurement system that is based on a single ultrasonic sensor which can achieve the high levels of accuracy required for fluid level measurement in dynamic environments.

A Neural Network Approach to Fluid Quantity Measurement in Dynamic Environments (Paperback, 2012 ed.): Edin Terzic, Jenny... A Neural Network Approach to Fluid Quantity Measurement in Dynamic Environments (Paperback, 2012 ed.)
Edin Terzic, Jenny Terzic, Romesh Nagarajah, Muhammad Alamgir
R2,747 Discovery Miles 27 470 Ships in 10 - 15 working days

Sloshing causes liquid to fluctuate, making accurate level readings difficult to obtain in dynamic environments. The measurement system described uses a single-tube capacitive sensor to obtain an instantaneous level reading of the fluid surface, thereby accurately determining the fluid quantity in the presence of slosh. A neural network based classification technique has been applied to predict the actual quantity of the fluid contained in a tank under sloshing conditions.

In "A neural network approach to fluid quantity measurement in dynamic environments," effects of temperature variations and contamination on the capacitive sensor are discussed, and the authors propose that these effects can also be eliminated with the proposed neural network based classification system. To examine the performance of the classification system, many field trials were carried out on a running vehicle at various tank volume levels that range from 5 L to 50 L. The effectiveness of signal enhancement on the neural network based signal classification system is also investigated. Results obtained from the investigation are compared with traditionally used statistical averaging methods, and proves that the neural network based measurement system can produce highly accurate fluid quantity measurements in a dynamic environment. Although in this case a capacitive sensor was used to demonstrate measurement system this methodology is valid for all types of electronic sensors.

The approach demonstrated in "A neural network approach to fluid quantity measurement in dynamic environments "can be applied to a wide range of fluid quantity measurement applications in the automotive, naval and aviation industries to produce accurate fluid level readings. Students, lecturers, and experts will find the description of current research about accurate fluid level measurement in dynamic environments using neural network approach useful."

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