Adaptive Planning with Evidence Based Prediction for Improved Fluency in Routine Human-Robot Collaborative Tasks

Christopher K. Fourie

2019 AAAI AAAI 2019

Adaptive Planning with Evidence Based Prediction for Improved Fluency in Routine Human-Robot Collaborative Tasks

Abstract

Abstract This thesis work intends to explore the development of a shared mental model between an autonomous agent and a human, where we aim to promote fluency in continuing interactions defined by repetitive tasks. That is, with repetitive actions, experimentation and increasing iterations, we wish the robot to learn how its own behavior affects that of its partner. To accomplish this, we propose a model that encodes both human and robot actions in a probabilistic space describing the temporal transition points between activities. The purpose of such a model is not only in passive predictive power (understanding the future actions of an associate), but also to encode the latent effect of a robot’s action on the future actions of the associate.

🚀 Conference Pioneer — AAAI 2019

🌉 Interdisciplinary Bridge — Artificial Intelligence and Knowledge & Reasoning and Machine Learning and Robotics

📈 Trend Setter — Human-Robot Interaction

🧭 Keyword Pioneer — shared mental model

🐣 Hot Topic Early Bird — task planning

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Data Science & Analytics, Deep Learning, Healthcare & Medicine, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics, Speech & Audio

Authors

Christopher K. Fourie

Topics

Artificial Intelligence > Core AI > Agent Systems Artificial Intelligence > Core AI > Human-AI Interaction Knowledge & Reasoning > Reasoning > Automated Planning Knowledge & Reasoning > Reasoning > Causal Inference Robotics > Capabilities > Human-Robot Interaction Machine Learning > Bayesian & Probabilistic > Probabilistic Modeling Artificial Intelligence > Core AI > Robotics

Keywords

probabilistic model task planning motion prediction human-robot collaboration temporal transition shared mental model predictive planning routine task

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