Most robots are programmed to carry out specific tasks routinely with minor variations. However, more and more applications from SMEs require robots work alongside their counterpart human workers. To smooth the collaboration task flow and improve the collaboration efficiency, a better way is to formulate the robot to surmise what kind of assistance a human coworker needs and naturally take the right action at the right time. This paper proposes a prediction-based human-robot collaboration model for assembly scenarios. An embedded learning from demonstration technique enables the robot to understand various task descriptions and customized working preferences. A state-enhanced convolutional long short-term memory (ConvLSTM)-based framework i...
Thesis Advisors: Professor Robert Nowak, Professor Bilge MutluAs robots become commonplace in human...
In today's manufacturing environment, safe human-robot collaboration is of paramount importance, to ...
The logic of Industry 4.0 foresees humans and robots as indistinguishable parts of a larger heteroge...
To enable natural and fluent human robot collaboration, it is critical for a robot to comprehend the...
Prediction of the human behaviour is essential for allowing an efficient human-robot collaboration. ...
Task knowledge is essential for robots to proactively perform collaborative assembly tasks with a hu...
In manufacturing industry, a shift is observable towards high-mix, low-volume batches. The upcoming ...
We aim to build robots that go beyond command-and-response and can engage in fluent collaborative be...
Collaborative robots require effective human intention estimation to safely and smoothly work with h...
AbstractRobotics researchers are spending many efforts in developing methodologies and techniques th...
In this study, we proposed a behavior analysis for increasing the efficiency of human–robot collabor...
Human-robot collaboration (HRC), where humans and robots work together on specific tasks, is a growi...
Manufacturing flexibility and human-centered designs are promising approaches to face the demand for...
In human-human joint assembly work, two human workers complete the assembly of a toy-car by insertin...
Human–Robot Interaction (HRI) for collaborative robots has become an active research topic recently....
Thesis Advisors: Professor Robert Nowak, Professor Bilge MutluAs robots become commonplace in human...
In today's manufacturing environment, safe human-robot collaboration is of paramount importance, to ...
The logic of Industry 4.0 foresees humans and robots as indistinguishable parts of a larger heteroge...
To enable natural and fluent human robot collaboration, it is critical for a robot to comprehend the...
Prediction of the human behaviour is essential for allowing an efficient human-robot collaboration. ...
Task knowledge is essential for robots to proactively perform collaborative assembly tasks with a hu...
In manufacturing industry, a shift is observable towards high-mix, low-volume batches. The upcoming ...
We aim to build robots that go beyond command-and-response and can engage in fluent collaborative be...
Collaborative robots require effective human intention estimation to safely and smoothly work with h...
AbstractRobotics researchers are spending many efforts in developing methodologies and techniques th...
In this study, we proposed a behavior analysis for increasing the efficiency of human–robot collabor...
Human-robot collaboration (HRC), where humans and robots work together on specific tasks, is a growi...
Manufacturing flexibility and human-centered designs are promising approaches to face the demand for...
In human-human joint assembly work, two human workers complete the assembly of a toy-car by insertin...
Human–Robot Interaction (HRI) for collaborative robots has become an active research topic recently....
Thesis Advisors: Professor Robert Nowak, Professor Bilge MutluAs robots become commonplace in human...
In today's manufacturing environment, safe human-robot collaboration is of paramount importance, to ...
The logic of Industry 4.0 foresees humans and robots as indistinguishable parts of a larger heteroge...