Dennis Sprute scite author profile

Dennis Sprute

4Publications

53Citation Statements Received

77Citation Statements Given

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Affiliations

Fraunhofer Institute of Optronics, System Technologies and Image Exploitation, Hochschule Bielefeld, Otto-von-Guericke University Magdeburg

Publications

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This Far, No Further: Introducing Virtual Borders to Mobile Robots Using a Laser Pointer

Sprute¹,

Tönnies

König

2019

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We address the problem of controlling the workspace of a 3-DoF mobile robot. In a human-robot shared space, robots should navigate in a human-acceptable way according to the users' demands. For this purpose, we employ virtual borders, that are non-physical borders, to allow a user the restriction of the robot's workspace. To this end, we propose an interaction method based on a laser pointer to intuitively define virtual borders. This interaction method uses a previously developed framework based on robot guidance to change the robot's navigational behavior. Furthermore, we extend this framework to increase the flexibility by considering different types of virtual borders, i.e. polygons and curves separating an area. We evaluated our method with 15 non-expert users concerning correctness, accuracy and teaching time. The experimental results revealed a high accuracy and linear teaching time with respect to the border length while correctly incorporating the borders into the robot's navigational map. Finally, our user study showed that non-expert users can employ our interaction method.

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A Study on Different User Interfaces for Teaching Virtual Borders to Mobile Robots

Sprute

Tönnies

König

2018

Int J of Soc Robotics

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A framework for interactive teaching of virtual borders to mobile robots

Sprute

Rasch

Tönnies

et al. 2017

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The increasing number of robots in home environments leads to an emerging coexistence between humans and robots. Robots undertake common tasks and support the residents in their everyday life. People appreciate the presence of robots in their environment as long as they keep the control over them. One important aspect is the control of a robot's workspace. Therefore, we introduce virtual borders to precisely and flexibly define the workspace of mobile robots. First, we propose a novel framework that allows a person to interactively restrict a mobile robot's workspace. To show the validity of this framework, a concrete implementation based on visual markers is implemented. Afterwards, the mobile robot is capable of performing its tasks while respecting the new virtual borders. The approach is accurate, flexible and less time consuming than explicit robot programming. Hence, even non-experts are able to teach virtual borders to their robots which is especially interesting in domains like vacuuming or service robots in home environments.

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Virtual Borders: Accurate Definition of a Mobile Robot's Workspace Using Augmented Reality

Sprute

Tönnies

König

2018

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We address the problem of interactively controlling the workspace of a mobile robot to ensure a human-aware navigation. This is especially of relevance for non-expert users living in human-robot shared spaces, e.g. home environments, since they want to keep the control of their mobile robots, such as vacuum cleaning or companion robots. Therefore, we introduce virtual borders that are respected by a robot while performing its tasks. For this purpose, we employ a RGB-D Google Tango tablet as human-robot interface in combination with an augmented reality application to flexibly define virtual borders. We evaluated our system with 15 non-expert users concerning accuracy, teaching time and correctness and compared the results with other baseline methods based on visual markers and a laser pointer. The experimental results show that our method features an equally high accuracy while reducing the teaching time significantly compared to the baseline methods. This holds for different border lengths, shapes and variations in the teaching process. Finally, we demonstrated the correctness of the approach, i.e. the mobile robot changes its navigational behavior according to the user-defined virtual borders.

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Dennis Sprute

This Far, No Further: Introducing Virtual Borders to Mobile Robots Using a Laser Pointer

A Study on Different User Interfaces for Teaching Virtual Borders to Mobile Robots

A framework for interactive teaching of virtual borders to mobile robots

Virtual Borders: Accurate Definition of a Mobile Robot's Workspace Using Augmented Reality

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