2022
DOI: 10.1109/tro.2021.3123840
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Explainable Robotic Plan Execution Monitoring Under Partial Observability

Abstract: Successful plan generation for autonomous systems is necessary but not sufficient to guarantee reaching a goal state by an execution of a plan. Various discrepancies between an expected state and the observed state may occur during the plan execution (e.g., due to failure of robot parts) and these discrepancies may lead to plan failures. For that reason, autonomous systems should be equipped with execution monitoring algorithms so that they can autonomously recover from such discrepancies.We introduce a plan e… Show more

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Cited by 5 publications
(3 citation statements)
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“…But a simulator might not be a perfect model of the real world, presenting challenges in applying the policies learned in simulation to real robots, known as the sim-to-real gap [46]. Some methods address this problem, but mostly only focus on recovery from failures caused by unmodeled dynamics, physical interactions, or system errors [13], [29].…”
Section: Learning-based Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…But a simulator might not be a perfect model of the real world, presenting challenges in applying the policies learned in simulation to real robots, known as the sim-to-real gap [46]. Some methods address this problem, but mostly only focus on recovery from failures caused by unmodeled dynamics, physical interactions, or system errors [13], [29].…”
Section: Learning-based Methodsmentioning
confidence: 99%
“…Plan execution monitoring methods [27] specifically focus on detecting the difference between world states and expected states, and recovering from the discrepancies. There have been works that consider execution failures by diagnosing broken parts of the robotic system with either fully observable [28] or partially observable state spaces [29]. Another work reacts to temporal or resource constraints that emerge at execution time [30].…”
Section: B Reactive Manipulationmentioning
confidence: 99%
“…Self-monitoring explanations shed light on a robot's comprehension of its own state, that is, the state of software and hardware modules, including potential malfunctioning [49,50]. An example of an explanation-demanding question is "Why is your battery so low?"…”
Section: Self-monitoringmentioning
confidence: 99%