Robot controller design is usually hierarchical with both high-level task and motion planning and low-level control law design. In the presented works, we investigate methods for low-level and high-level control designs to guarantee joint performance of human-robot interaction (HRI). In the first work, a low-level method using the switched linear quadratic regulator (SLQR), an optimal control policy based on a quadratic cost function, is used. By incorporating measures of robot performance and human workload, it can be determined when to utilize the human operator in a method that improves overall task performance while reducing operator workload. This method is demonstrated via simulation using the complex dynamics of an autonomous underwa...
As robotic agents become increasingly present in human environments, task completion rates during hu...
This book provides an overview of recent research developments in the automation and control of robo...
This paper explores means to increase efficiency in performing tasks with multi-robot teams, in the ...
Robot controller design is usually hierarchical with both high-level task and motion planning and lo...
Even with the advance of autonomous robotics and automation, many automated tasks still require huma...
Graduation date: 2018In shared autonomy, a robot and human user both have some level of control in o...
Emerging applications of robot systems that involve physical interaction with humans have opened up ...
In order to take advantage of autonomous robotic systems, and yet ensure successful completion of al...
Autonomous robot manipulation in unstructured environments is a required behavior for many robotics ...
An intelligent human-robot interaction (HRI) system with adjustable robot behavior is presented. The...
When working alongside human collaborators in dynamic and unstructured environments, such as disaste...
In human-robot collaboration (HRC), the variability of the human behavior complicates the deployment...
Human-robot interactions (HRI) have been recognized to be a key element of future robots in many app...
Combining task and motion planning efficiently in human-robot collaboration (HRC) entails several ch...
In modern industrial environments, robots are expected to work close to human operators collaboratin...
As robotic agents become increasingly present in human environments, task completion rates during hu...
This book provides an overview of recent research developments in the automation and control of robo...
This paper explores means to increase efficiency in performing tasks with multi-robot teams, in the ...
Robot controller design is usually hierarchical with both high-level task and motion planning and lo...
Even with the advance of autonomous robotics and automation, many automated tasks still require huma...
Graduation date: 2018In shared autonomy, a robot and human user both have some level of control in o...
Emerging applications of robot systems that involve physical interaction with humans have opened up ...
In order to take advantage of autonomous robotic systems, and yet ensure successful completion of al...
Autonomous robot manipulation in unstructured environments is a required behavior for many robotics ...
An intelligent human-robot interaction (HRI) system with adjustable robot behavior is presented. The...
When working alongside human collaborators in dynamic and unstructured environments, such as disaste...
In human-robot collaboration (HRC), the variability of the human behavior complicates the deployment...
Human-robot interactions (HRI) have been recognized to be a key element of future robots in many app...
Combining task and motion planning efficiently in human-robot collaboration (HRC) entails several ch...
In modern industrial environments, robots are expected to work close to human operators collaboratin...
As robotic agents become increasingly present in human environments, task completion rates during hu...
This book provides an overview of recent research developments in the automation and control of robo...
This paper explores means to increase efficiency in performing tasks with multi-robot teams, in the ...