Semantic Mapping Based on Spatial Concepts for Grounding Words Related to Places in Daily Environments

Katsumata, Yuki; Taniguchi, Akira; Hagiwara, Yoshinobu; Taniguchi, Tadahiro

doi:10.3389/frobt.2019.00031

Cited by 18 publications

(12 citation statements)

References 37 publications

(65 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This case occurred owing to the fact that the range of the learned spatial concept exceeded the wall. This issue occurs because the position distribution of the spatial concept is represented by a Gaussian distribution; however, it is solved via application of an approach that deals with the shape of the room based on the conditional random field in [36].…”

Section: Resultsmentioning

confidence: 99%

See 1 more Smart Citation

Spatial concept-based navigation with human speech instructions via probabilistic inference on Bayesian generative model

et al. 2020

Self Cite

View full text Add to dashboard Cite

Robots are required to not only learn spatial concepts autonomously but also utilize such knowledge for various tasks in a domestic environment. Spatial concept represents a multimodal place category acquired from the robot's spatial experience including vision, speech-language, and selfposition. The aim of this study is to enable a mobile robot to perform navigational tasks with human speech instructions, such as 'Go to the kitchen', via probabilistic inference on a Bayesian generative model using spatial concepts. Specifically, path planning was formalized as the maximization of probabilistic distribution on the path-trajectory under speech instruction, based on a control-asinference framework. Furthermore, we described the relationship between probabilistic inference based on the Bayesian generative model and control problem including reinforcement learning. We demonstrated path planning based on human instruction using acquired spatial concepts to verify the usefulness of the proposed approach in the simulator and in real environments. Experimentally, places instructed by the user's speech commands showed high probability values, and the trajectory toward the target place was correctly estimated. Our approach, based on probabilistic inference concerning decision-making, can lead to further improvement in robot autonomy.

show abstract

Section: Resultsmentioning

confidence: 99%

“…Our method has the advantage that it can be also applied to different POMDP-based models for spatial concepts, e.g. [36,37]. SpCoNavi was assumed to use parameters estimated by SpCoSLAM.…”

Section: Resultsmentioning

confidence: 99%

Spatial concept-based navigation with human speech instructions via probabilistic inference on Bayesian generative model

et al. 2020

Self Cite

View full text Add to dashboard Cite

show abstract

“…This can accelerate the learning process in a newly visited environment [36]. Katsumata et al employed generative adversarial networks (GAN) that model complex knowledge on semantic mapping across many home environments [37]. The development of a general framework to combine common-sense symbolic knowledge and local knowledge acquired onsite and online is also an important challenge.…”

Section: Knowledge Transfermentioning

confidence: 99%

Semiotically adaptive cognition: toward the realization of remotely-operated service robots for the new normal symbiotic society

et al. 2021

Self Cite

View full text Add to dashboard Cite

The installation of remotely-operated service robots in the environments of our daily life (including offices, homes, and hospitals) can improve work-from-home policies and enhance the quality of the so-called new normal. However, it is evident that remotely-operated robots must have partial autonomy and the capability to learn and use local semiotic knowledge. In this paper, we argue that the development of semiotically adaptive cognitive systems is key to the installation of service robotics technologies in our service environments. To achieve this goal, we describe three challenges: the learning of local knowledge, the acceleration of onsite and online learning, and the augmentation of human-robot interactions.

show abstract

“…Patki et al ( 2019 ) utilized distributed correspondence graph to infer the environment representation in a task-specific approach. Katsumata et al ( 2019 ) introduced a statistical semantic mapping method that enables the robot to connect multiple words embedded in spoken utterance to a place in a semantic mapping processing. However, these models did not take into account the inherent vagueness of natural language.…”

Section: Related Workmentioning

confidence: 99%

“…Natural language grounding-based HRI requires a comprehensive understanding of natural language instructions and working scenarios, and the pivotal issue of is to locate the referred objects in working scenarios according to given instructions. Although the existing models achieve promising results, some of them either do not take the inherent ambiguity of natural language into consideration (Paul et al, 2018 ; Katsumata et al, 2019 ; Mi et al, 2019 ; Patki et al, 2019 ), or alleviate the ambiguity via drawing support from auxiliary information, such as dialogue system (Ahn et al, 2018 ; Hatori et al, 2018 ; Shridhar and Hsu, 2018 ) and gestures (Shridhar and Hsu, 2018 ). However, the dialogue-based disambiguation systems entail time cost and cumbersome interactions.…”

Section: Introductionmentioning

confidence: 99%

Interactive Natural Language Grounding via Referring Expression Comprehension and Scene Graph Parsing

Lyu

Tang

et al. 2020

Front. Neurorobot.

View full text Add to dashboard Cite

Natural language provides an intuitive and effective interaction interface between human beings and robots. Currently, multiple approaches are presented to address natural language visual grounding for human-robot interaction. However, most of the existing approaches handle the ambiguity of natural language queries and achieve target objects grounding via dialogue systems, which make the interactions cumbersome and time-consuming. In contrast, we address interactive natural language grounding without auxiliary information. Specifically, we first propose a referring expression comprehension network to ground natural referring expressions. The referring expression comprehension network excavates the visual semantics via a visual semantic-aware network, and exploits the rich linguistic contexts in expressions by a language attention network. Furthermore, we combine the referring expression comprehension network with scene graph parsing to achieve unrestricted and complicated natural language grounding. Finally, we validate the performance of the referring expression comprehension network on three public datasets, and we also evaluate the effectiveness of the interactive natural language grounding architecture by conducting extensive natural language query groundings in different household scenarios.

show abstract

Semantic Mapping Based on Spatial Concepts for Grounding Words Related to Places in Daily Environments

Cited by 18 publications

References 37 publications

Spatial concept-based navigation with human speech instructions via probabilistic inference on Bayesian generative model

Spatial concept-based navigation with human speech instructions via probabilistic inference on Bayesian generative model

Semiotically adaptive cognition: toward the realization of remotely-operated service robots for the new normal symbiotic society

Interactive Natural Language Grounding via Referring Expression Comprehension and Scene Graph Parsing

Contact Info

Product

Resources

About