Add to ORKGRobotic assembly systems are widely used in industry to improve the production task. However when they halt their operation due to a failure, it usually takes considerable time to diagnose the system. In this paper, we discuss the results of an approach which uses Virtual Factories to reduce the time spent on diagnosis. The approach proposes building a virtual model of the system and simulating the process many times to identify the possible failure scenarios, their symptoms and likelihood of occurrence before they happen. Then, a diagnosis system can be built based on these results and integrated to the assembly system; and when actual failure happens, the system can come up with the most possible failure scenario using Bayesian Reasoning....
Integrating robots into a hybrid assembly line with both human workers and robots presents a big cha...
We introduce a novel diagnostic reasoning method for robotic systems with multiple robots, to find t...
In this work, a new approach for fault diagnosis in the field of additive manufacturing (3d printing...
Robotic assembly systems are widely used in industry to improve the production task. However when th...
Automated assembly systems often stop their operation due to the unexpected failures occurred during...
The advent of industrial robots has enabled large-scale automation in assembly lines with high produ...
Large-scale automated assembly systems are widely used in automotive, aerospace and consumer electro...
Smart manufacturing systems are being advocated to leverage technological advances that enable them ...
International audiencePresent manufacturing systems are equipped with sensors that provide a basis f...
For reliable and fault tolerant operation of cognitive factories, we introduce an algorithm to monit...
Industrial robots have remained the fastest-growing market, within the overall robotics industry sal...
Abstract: This paper proposes a method to accurately locate the source of product quality drift in a...
NoThis paper is part of a research theme to develop methods that enhance risk assessment studies by ...
Automotive companies employing highly automated assembly lines in their body shops struggle with the...
The need for fault tolerant mechanisms in flexible manufacturing systems is described and previous w...
Integrating robots into a hybrid assembly line with both human workers and robots presents a big cha...
We introduce a novel diagnostic reasoning method for robotic systems with multiple robots, to find t...
In this work, a new approach for fault diagnosis in the field of additive manufacturing (3d printing...
Robotic assembly systems are widely used in industry to improve the production task. However when th...
Automated assembly systems often stop their operation due to the unexpected failures occurred during...
The advent of industrial robots has enabled large-scale automation in assembly lines with high produ...
Large-scale automated assembly systems are widely used in automotive, aerospace and consumer electro...
Smart manufacturing systems are being advocated to leverage technological advances that enable them ...
International audiencePresent manufacturing systems are equipped with sensors that provide a basis f...
For reliable and fault tolerant operation of cognitive factories, we introduce an algorithm to monit...
Industrial robots have remained the fastest-growing market, within the overall robotics industry sal...
Abstract: This paper proposes a method to accurately locate the source of product quality drift in a...
NoThis paper is part of a research theme to develop methods that enhance risk assessment studies by ...
Automotive companies employing highly automated assembly lines in their body shops struggle with the...
The need for fault tolerant mechanisms in flexible manufacturing systems is described and previous w...
Integrating robots into a hybrid assembly line with both human workers and robots presents a big cha...
We introduce a novel diagnostic reasoning method for robotic systems with multiple robots, to find t...
In this work, a new approach for fault diagnosis in the field of additive manufacturing (3d printing...