Integrating Perceptions: A Human-Centered Physical Safety Model for Human-Robot Interaction

TL;DR

This paper proposes a personalized safety model for human-robot interaction that incorporates individual perceptions and emotional states, validated through human-subject studies in simulated rescue scenarios.

Contribution

It introduces a parameterized safety model that integrates subjective perceptions with physical safety measures, accounting for individual differences and emotional factors.

Findings

Personalization parameter $ ho$ captures individual safety perceptions.

Predictable robot behavior enhances perceived safety.

Safety perceptions vary with participant role and exposure.

Abstract

Ensuring safety in human-robot interaction (HRI) is essential to foster user trust and enable the broader adoption of robotic systems. Traditional safety models primarily rely on sensor-based measures, such as relative distance and velocity, to assess physical safety. However, these models often fail to capture subjective safety perceptions, which are shaped by individual traits and contextual factors. In this paper, we introduce and analyze a parameterized general safety model that bridges the gap between physical and perceived safety by incorporating a personalization parameter, $\rho$, into the safety measurement framework to account for individual differences in safety perception. Through a series of hypothesis-driven human-subject studies in a simulated rescue scenario, we investigate how emotional state, trust, and robot behavior influence perceived safety. Our results show that $\rho$ effectively captures meaningful individual differences, driven by affective responses, trust in task consistency, and clustering into distinct user types. Specifically, our findings confirm that predictable and consistent robot behavior as well as the elicitation of positive emotional states, significantly enhance perceived safety. Moreover, responses cluster into a small number of user types, supporting adaptive personalization based on shared safety models. Notably, participant role significantly shapes safety perception, and repeated exposure reduces perceived safety for participants in the casualty role, emphasizing the impact of physical interaction and experiential change. These findings highlight the importance of adaptive, human-centered safety models that integrate both psychological and behavioral dimensions, offering a pathway toward more trustworthy and effective HRI in safety-critical domains.