Reliable human machine interfaces is key to accomplishing the goals of Industry 4.0. This work proposes the late fusion of a visual recognition and human action recognition (HAR) classifier. Vision is used to recognise the number of screws assembled into a mock part while HAR from body worn Inertial Measurement Units (IMUs) classifies actions done to assemble the part. Convolutional Neural Network (CNN) methods are used in both modes of classification before various late fusion methods are analysed for prediction of a final state estimate. The fusion methods investigated are mean, weighted average, Support Vector Machine (SVM), Bayesian, Artificial Neural Network (ANN) and Long Short Term Memory (LSTM). The results show the LSTM fusion meth...
Human Activity Recognition (HAR) is one of the essential building blocks of so many applications lik...
“In a worker-centered intelligent manufacturing system, sensing and understanding of the worker’s be...
Human-Machine Interfaces (HMI) are the technology through which we interact with the ever-increasing...
Production innovations are occurring faster than ever. Manufacturing workers thus need to frequently...
In this paper we present a human action recognition system that utilizes the fusion of depth and ine...
Assembly carries paramount importance in manufacturing. Being able to support workers in real time t...
“Production innovations are occurring faster than ever leading conventional production systems towar...
In safety-critical environments, robots need to reliably recognize human activity to be effective an...
Wearable inertial sensors are currently receiving pronounced interest due to applications in unconst...
The growing development in the sensory implementation has facilitated that the human activity can be...
This study aims at sensing and understanding the worker\u27s activity in a human-centered intelligen...
This work presents a framework for Human-Robot Collaboration (HRC) in assembly tasks that uses multi...
The aim of this work is to present two different algorithmic pipelines for human activity recognitio...
Our focus in this research is on the use of deep learning approaches for human activity recognition ...
In a smart manufacturing system involving workers, recognition of the worker\u27s activity can be us...
Human Activity Recognition (HAR) is one of the essential building blocks of so many applications lik...
“In a worker-centered intelligent manufacturing system, sensing and understanding of the worker’s be...
Human-Machine Interfaces (HMI) are the technology through which we interact with the ever-increasing...
Production innovations are occurring faster than ever. Manufacturing workers thus need to frequently...
In this paper we present a human action recognition system that utilizes the fusion of depth and ine...
Assembly carries paramount importance in manufacturing. Being able to support workers in real time t...
“Production innovations are occurring faster than ever leading conventional production systems towar...
In safety-critical environments, robots need to reliably recognize human activity to be effective an...
Wearable inertial sensors are currently receiving pronounced interest due to applications in unconst...
The growing development in the sensory implementation has facilitated that the human activity can be...
This study aims at sensing and understanding the worker\u27s activity in a human-centered intelligen...
This work presents a framework for Human-Robot Collaboration (HRC) in assembly tasks that uses multi...
The aim of this work is to present two different algorithmic pipelines for human activity recognitio...
Our focus in this research is on the use of deep learning approaches for human activity recognition ...
In a smart manufacturing system involving workers, recognition of the worker\u27s activity can be us...
Human Activity Recognition (HAR) is one of the essential building blocks of so many applications lik...
“In a worker-centered intelligent manufacturing system, sensing and understanding of the worker’s be...
Human-Machine Interfaces (HMI) are the technology through which we interact with the ever-increasing...