Exploring Non-Expert Robot Programming Through Crowdsourcing

Waveren, Sanne van; Carter, Elizabeth; Örnberg, Oscar; Leite, Iolanda

doi:10.3389/frobt.2021.646002

Cited by 9 publications

(4 citation statements)

References 43 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Moreover, we will investigate optimization-based controllers to satisfy spatial relations in our planning approach, see Lemma 2. Lastly, we like to develop approaches to learn specifications from demonstrations and to leverage users to correct specifications (Kress-Gazit et al, 2008van Waveren et al, 2021;Kent et al, 2017;Zhang et al, 2021;van Waveren et al, 2022).…”

Section: Discussionmentioning

confidence: 99%

SpaTiaL: Monitoring and Planning of Robotic Tasks Using Spatio-Temporal Logic Specifications

Pek

Schuppe

Esposito

et al. 2023

Preprint

View full text Add to dashboard Cite

Many tasks require robots to manipulate objects while satisfying a complex interplay of spatial and temporal constraints. For instance, a table setting robot first needs to place a mug and then fill it with coffee, while satisfying spatial relations such as forks need to placed left of plates. Existing solutions are often not robot-agnostic, not expressive enough to monitor and plan complex tasks, and require users to manually define object relations. We propose the spatio-temporal framework SpaTiaL that unifies the specification, monitoring, and planning of object-centric robotic tasks. SpaTiaL captures diverse spatial relations between objects and temporal task patterns. Our experiments with recorded data, simulations, and robots demonstrate how SpaTiaL provides real-time monitoring and facilitates online planning. SpaTiaL is open source and easily expandable to new object relations and robotic applications.

show abstract

Section: Discussionmentioning

confidence: 99%

SpaTiaL: Monitoring and Planning of Robotic Tasks Using Spatio-Temporal Logic Specifications

Pek

Schuppe

Esposito

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

“…To address the computation times, we will investigate optimization-based approaches to satisfy spatial relations in our planning approach. Lastly, we like to develop approaches to learn specifications from demonstrations and to leverage users to correct specifications (Kress-Gazit et al, 2008, 2021van Waveren et al, 2021;Kent et al, 2017;Zhang et al, 2021;van Waveren et al, 2022).…”

Section: Discussion and Limitationsmentioning

confidence: 99%

SpaTiaL: monitoring and planning of robotic tasks using spatio-temporal logic specifications

Pek,

Schuppe,

Esposito

et al. 2023

Auton Robot

View full text Add to dashboard Cite

Many tasks require robots to manipulate objects while satisfying a complex interplay of spatial and temporal constraints. For instance, a table setting robot first needs to place a mug and then fill it with coffee, while satisfying spatial relations such as forks need to placed left of plates. We propose the spatio-temporal framework SpaTiaL that unifies the specification, monitoring, and planning of object-oriented robotic tasks in a robot-agnostic fashion. SpaTiaL is able to specify diverse spatial relations between objects and temporal task patterns. Our experiments with recorded data, simulations, and real robots demonstrate how SpaTiaL provides real-time monitoring and facilitates online planning. SpaTiaL is open source and easily expandable to new object relations and robotic applications.

show abstract

“…We use natural language as an intuitive way for inexperienced users to instruct the robot [32], it allows us to analyze whether people understand the task, it reduces the risk of having the interface design as a confounding factor on task performance, and it can be translated into code [33]. There is a large body of work that focuses on NE robot programming, e.g., [34]- [38]. While that is not our focus, we did ask people to code their solution using the Google Blockly interface [39], to get an idea how this compares to natural language.…”

Section: Collect Non-expert Input To Repair Policiesmentioning

confidence: 99%

Correct Me If I'm Wrong: Using Non-Experts to Repair Reinforcement Learning Policies

Waveren

Pek

Tůmová

et al. 2022

2022 17th ACM/IEEE International Conference on Human-Robot Interaction (HRI)

Self Cite

View full text Add to dashboard Cite

Reinforcement learning has shown great potential for learning sequential decision-making tasks. Yet, it is difficult to anticipate all possible real-world scenarios during training, causing robots to inevitably fail in the long run. Many of these failures are due to variations in the robot's environment. Usually experts are called to correct the robot's behavior; however, some of these failures do not necessarily require an expert to solve them. In this work, we query non-experts online for help and explore 1) if/how non-experts can provide feedback to the robot after a failure and 2) how the robot can use this feedback to avoid such failures in the future by generating shields that restrict or correct its high-level actions. We demonstrate our approach on common daily scenarios of a simulated kitchen robot. The results indicate that non-experts can indeed understand and repair robot failures. Our generated shields accelerate learning and improve data-efficiency during retraining.

show abstract

Exploring Non-Expert Robot Programming Through Crowdsourcing

Cited by 9 publications

References 43 publications

SpaTiaL: Monitoring and Planning of Robotic Tasks Using Spatio-Temporal Logic Specifications

SpaTiaL: Monitoring and Planning of Robotic Tasks Using Spatio-Temporal Logic Specifications

SpaTiaL: monitoring and planning of robotic tasks using spatio-temporal logic specifications

Correct Me If I'm Wrong: Using Non-Experts to Repair Reinforcement Learning Policies

Contact Info

Product

Resources

About