In this work, a new approach for fault diagnosis in the field of additive manufacturing (3d printing) using artificial intelligence will be given. This approach is based on the marriage of the Bayesian Networks theory and data acquisition techniques. Bayesian Networks are well known for their ability to infer probabilities and to give decisional support under uncertainty. In order to do so, these probability engines must be constructed and maintained by a big amount of data and information using learning algorithms. This work provides a methodology that uses sensors based data acquisition and processing to construct such networks. Some of these sensors are already available in most of the 3d printers available in the market, while other sen...
Additive Manufacturing (AM) of three-dimensional objects is now being progressively realised with it...
Today root causes of failures and quality deviations in manufacturing are usually identified using e...
Additive manufacturing (AM) processes are capable of producing objects of high precision. There are ...
In this work, a new approach for fault diagnosis in the field of additive manufacturing (3d printing...
Three-dimensional printing, often known as additive manufacturing (AM), is a groundbreaking techniqu...
This paper provides a comprehensive data-driven diagnosis approach applicable to complex manufacturi...
International audienceThis paper provides a comprehensive data-driven diagnosis approach applicable ...
The goal of this dissertation is to detect the incipient flaws in metal parts made using additive ma...
A Bayesian network (BN) is a powerful tool to represent the quantitative and qualitative features of...
The changes caused by Industry 4.0 determine the decisions taken by manufacturing companies. Their a...
International audienceIn the literature, several fault diagnosis methods, qualitative as well quanti...
International audiencePresent manufacturing systems are equipped with sensors that provide a basis f...
Additive Manufacturing processes are used in various industries and the utilisation of the technolog...
Model-based fault diagnosis using artificial intelligence techniques often deals with uncertain know...
Abstract: This paper proposes a method to accurately locate the source of product quality drift in a...
Additive Manufacturing (AM) of three-dimensional objects is now being progressively realised with it...
Today root causes of failures and quality deviations in manufacturing are usually identified using e...
Additive manufacturing (AM) processes are capable of producing objects of high precision. There are ...
In this work, a new approach for fault diagnosis in the field of additive manufacturing (3d printing...
Three-dimensional printing, often known as additive manufacturing (AM), is a groundbreaking techniqu...
This paper provides a comprehensive data-driven diagnosis approach applicable to complex manufacturi...
International audienceThis paper provides a comprehensive data-driven diagnosis approach applicable ...
The goal of this dissertation is to detect the incipient flaws in metal parts made using additive ma...
A Bayesian network (BN) is a powerful tool to represent the quantitative and qualitative features of...
The changes caused by Industry 4.0 determine the decisions taken by manufacturing companies. Their a...
International audienceIn the literature, several fault diagnosis methods, qualitative as well quanti...
International audiencePresent manufacturing systems are equipped with sensors that provide a basis f...
Additive Manufacturing processes are used in various industries and the utilisation of the technolog...
Model-based fault diagnosis using artificial intelligence techniques often deals with uncertain know...
Abstract: This paper proposes a method to accurately locate the source of product quality drift in a...
Additive Manufacturing (AM) of three-dimensional objects is now being progressively realised with it...
Today root causes of failures and quality deviations in manufacturing are usually identified using e...
Additive manufacturing (AM) processes are capable of producing objects of high precision. There are ...