Asking for Help Using Inverse Semantics

Tellex, Stefanie; Knepper, Ross A.; Li, Adrian; Rus, Daniela; Roy, Nicholas

doi:10.15607/rss.2014.x.024

Cited by 130 publications

(108 citation statements)

References 20 publications

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“…Exaggeration is one of the 12 principles of animation [51]. However, nowhere did we inform the robot of what exaggeration is and how it might be useful for legibility.…”

Section: B Interpretationmentioning

confidence: 99%

Integrating human observer inferences into robot motion planning

Dragan

Srinivasa

2014

Auton Robot

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Abstract-Our goal is to enable robots to produce motion that is suitable for human-robot collaboration and coexistence. Most motion in robotics is purely functional, ideal when the robot is performing a task in isolation. In collaboration, however, the robot's motion has an observer, watching and interpreting the motion.In this work, we move beyond functional motion, and introduce the notion of an observer into motion planning, so that robots can generate motion that is mindful of how it will be interpreted by a human collaborator.We formalize predictability and legibility as properties of motion that naturally arise from the inferences in opposing directions that the observer makes, drawing on action interpretation theory in psychology. We propose models for these inferences based on the principle of rational action, and derive constrained functional trajectory optimization techniques for planning motion that is predictable or legible.Finally, we present experiments that test our work on novice users, and discuss the remaining challenges in enabling robots to generate such motion online in complex situations. 1

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“…Exaggeration is one of the 12 principles of animation [51]. However, nowhere did we inform the robot of what exaggeration is and how it might be useful for legibility.…”

Section: B Interpretationmentioning

confidence: 99%

Integrating human observer inferences into robot motion planning

Dragan

Srinivasa

2014

Auton Robot

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“…The robot needs to be able to describe its internal representation of the shared environment so that the human understands what it is talking about. This is particularly important for establishing common ground and supporting successful interaction [1,28]. Toward this goal, this paper explores embodied collaborative referring expression generation which incorporates nonverbal modalities in the collaborative process of referential communication.…”

Section: Discussionmentioning

confidence: 99%

Embodied Collaborative Referring Expression Generation in Situated Human-Robot Interaction

Fang

Doering

Chai

2015

Proceedings of the Tenth Annual ACM/IEEE International Conference on Human-Robot Interaction

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To facilitate referential communication between humans and robots and mediate their differences in representing the shared environment, we are exploring embodied collaborative models for referring expression generation (REG). Instead of a single minimum description to describe a target object, episodes of expressions are generated based on human feedback during human-robot interaction. We particularly investigate the role of embodiment such as robot gesture behaviors (i.e., pointing to an object) and human's gaze feedback (i.e., looking at a particular object) in the collaborative process. This paper examines different strategies of incorporating embodiment and collaboration in REG and discusses their possibilities and challenges in enabling human-robot referential communication.

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“…Furthermore, such a task cannot be solved using static visual object recognition methods as detecting whether an object is full or empty may often require the robot to perform a certain action on it (e.g., lift the object to measure the force it exerts on the arm). In this section, the research contribution focuses on solving the symbol grounding problem (Harnad 1990), a longstanding challenge in AI, where language is grounded using the robot's perception and action (Tellex et al 2011;Matuszek et al 2012;Krishnamurthy and Kollar 2013;Perera and Allen 2013;Kollar, Krishnamurthy and Strimel 2013;Tellex et al 2014;Matuszek et al 2014;Parde et al 2015;Spranger and Steels 2015). To address this problem, we enable a robot to undergo two distinct developmental stages:…”

Section: Grounded Language Learning Through Human-robot Interactionmentioning

confidence: 99%

BWIBots: A platform for bridging the gap between AI and human–robot interaction research

Khandelwal

Zhang

Sinapov

et al. 2017

The International Journal of Robotics Research

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Recent progress in both Artificial Intelligence (AI) and Robotics have enabled the development of general purpose robot platforms that are capable of executing a wide variety of complex, temporally extended service tasks in open environments. This article introduces a novel, custom-designed multi-robot platform for research on AI, robotics, and especially Human-Robot Interaction (HRI) for service robots. Called BWIBots, the robots were designed as a part of the Building-Wide Intelligence (BWI) project at the University of Texas at Austin. The article begins with a description of, and justification for, the hardware and software design decisions underlying the BWIBots, with the aim of informing the design of such platforms in the future. It then proceeds to present an overview of various research contributions that have enabled the BWIBots to better (i) execute action sequences to complete user requests, (ii) efficiently ask questions to resolve user requests, (iii) understand human commands given in natural language, and (iv) understand human intention from afar. The article concludes with a look forward towards future research opportunities and applications enabled by the BWIBot platform.

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Asking for Help Using Inverse Semantics

Cited by 130 publications

References 20 publications

Integrating human observer inferences into robot motion planning

Integrating human observer inferences into robot motion planning

Embodied Collaborative Referring Expression Generation in Situated Human-Robot Interaction

BWIBots: A platform for bridging the gap between AI and human–robot interaction research

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