Probabilistic Semantic Data Association for Collaborative Human-Robot Sensing
This addresses the challenge of reliable human-robot collaboration in sensing tasks, where human-provided data is not always accurate, representing a novel method for a known bottleneck.
The paper tackles the problem of robots maintaining beliefs over unknown world states when receiving semantic data from humans, which can be erroneous or ambiguous, by introducing a probabilistic semantic data association (PSDA) algorithm. Simulations in a multi-object search task show that PSDA enables robust collaborative state estimation under a wide range of conditions.
Humans cannot always be treated as oracles for collaborative sensing. Robots thus need to maintain beliefs over unknown world states when receiving semantic data from humans, as well as account for possible discrepancies between human-provided data and these beliefs. To this end, this paper introduces the problem of semantic data association (SDA) in relation to conventional data association problems for sensor fusion. It then develops a novel probabilistic semantic data association (PSDA) algorithm to rigorously address SDA in general settings, unlike previous work on semantic data fusion which developed heuristic techniques for specific settings. PSDA is further incorporated into a recursive hybrid Bayesian data fusion scheme which uses Gaussian mixture priors for object states and softmax functions for semantic human sensor data likelihoods. Simulations of a multi-object search task show that PSDA enables robust collaborative state estimation under a wide range of conditions where semantic human sensor data can be erroneous or contain significant reference ambiguities.