Abhijat Biswas scite author profile

The human-robot interaction (HRI) community has developed many methods for robots to navigate safely and socially alongside humans. However, experimental procedures to evaluate these works are usually constructed on a per-method basis. Such disparate evaluations make it difficult to compare the performance of such methods across the literature. To bridge this gap, we introduce SocNavBench , a simulation framework for evaluating social navigation algorithms. SocNavBench comprises a simulator with photo-realistic capabilities and curated social navigation scenarios grounded in real-world pedestrian data. We also provide an implementation of a suite of metrics to quantify the performance of navigation algorithms on these scenarios. Altogether, SocNavBench provides a test framework for evaluating disparate social navigation methods in a consistent and interpretable manner. To illustrate its use, we demonstrate testing three existing social navigation methods and a baseline method on SocNavBench , showing how the suite of metrics helps infer their performance trade-offs. Our code is open-source, allowing the addition of new scenarios and metrics by the community to help evolve SocNavBench to reflect advancements in our understanding of social navigation.

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SocNavBench: A Grounded Simulation Testing Framework for Evaluating Social Navigation

Biswas¹,

Wang²,

Silvera³

et al. 2021

Preprint

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The human-robot interaction (HRI) community has developed many methods for robots to navigate safely and socially alongside humans. However, experimental procedures to evaluate these works are usually constructed on a per-method basis. Such disparate evaluations make it difficult to compare the performance of such methods across the literature. To bridge this gap, we introduce SocNavBench, a simulation framework for evaluating social navigation algorithms. SocNavBench comprises a simulator with photorealistic capabilities and curated social navigation scenarios grounded in real-world pedestrian data. We also provide an implementation of a suite of metrics to quantify the performance of navigation algorithms on these scenarios. Altogether, SocNavBench provides a test framework for evaluating disparate social navigation methods in a consistent and interpretable manner. To illustrate its use, we demonstrate testing three existing social navigation methods and a baseline method on SocNavBench, showing how the suite of metrics helps infer their performance trade-offs. Our code is open-source, allowing the addition of new scenarios and metrics by the community to help evolve SocNavBench to reflect advancements in our understanding of social navigation.CCS Concepts: • Human-centered computing → Social navigation; HCI design and evaluation methods.

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Examining the Effects of Anticipatory Robot Assistance on Human Decision Making

Newman

Biswas

Ahuja

et al. 2020

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DReye VR: Democratizing Virtual Reality Driving Simulation for Behavioural & Interaction Research

Silvera

Biswas

Admoni

2022

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SketchParse

Sarvadevabhatla

Dwivedi

Biswas

et al. 2017

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Abhijat Biswas

SocNavBench: A Grounded Simulation Testing Framework for Evaluating Social Navigation

SocNavBench: A Grounded Simulation Testing Framework for Evaluating Social Navigation

Examining the Effects of Anticipatory Robot Assistance on Human Decision Making

DReye VR: Democratizing Virtual Reality Driving Simulation for Behavioural & Interaction Research

SketchParse

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