The objective of this research is to describe both human-robot interactions and inter-robot interactions and analyze the behavior of the resulting multi-agent systems, while drawing comparisons to psychological studies regarding human team behavior. In particular, we look at the effects of trust, energy, and manipulability on these interactions. We first address the problem of modeling trust evolution and describing how it affects the states of agents in a system - whether they be human or robot. We introduce two different types of trust models - self-centered and team-oriented - and show, through simulations and theoretical analyses, under what initial trust conditions these systems achieve their objectives. We show our models to be psycho...
This paper presents a pilot study in which we examine the interactions between human-robot teammate ...
This chapter examines the physical interaction between two humans and between a human and a robot si...
In this paper, we present a framework for trust-aware sequential decision-making in a human-robot te...
In this work, we incorporate trust into the interaction dynamics for multi-agent systems in order to...
In order to interact seamlessly with robots, users must infer the causes of a robot’s behavior–and b...
Future robotic systems are expected to transition from tools to teammates, characterized by increasi...
In the last decade, the concept of trust and its dynamics has received considerable attention in rob...
We are interested in asymmetric human-robot teams, where a human supervisor occasionally takes over ...
Advances in robotic technologies and artificial intelligence are allowing robots to emerge fromresea...
This book provides an overview of recent research developments in the automation and control of robo...
Trust is the foundation of successful human collaboration. This has also been found to be true for h...
Trust and cooperation are fundamental to human interactions. How much we trust other people directl...
We present the effect of adapting to human preferences on trust in a human-robot teaming task. The t...
The paper discusses how a human-robot team can remain “co-hesive ” while performing under stress. By...
We are interested in asymmetric human-robot teams adhering to a "supervisor-worker" relationship, wh...
This paper presents a pilot study in which we examine the interactions between human-robot teammate ...
This chapter examines the physical interaction between two humans and between a human and a robot si...
In this paper, we present a framework for trust-aware sequential decision-making in a human-robot te...
In this work, we incorporate trust into the interaction dynamics for multi-agent systems in order to...
In order to interact seamlessly with robots, users must infer the causes of a robot’s behavior–and b...
Future robotic systems are expected to transition from tools to teammates, characterized by increasi...
In the last decade, the concept of trust and its dynamics has received considerable attention in rob...
We are interested in asymmetric human-robot teams, where a human supervisor occasionally takes over ...
Advances in robotic technologies and artificial intelligence are allowing robots to emerge fromresea...
This book provides an overview of recent research developments in the automation and control of robo...
Trust is the foundation of successful human collaboration. This has also been found to be true for h...
Trust and cooperation are fundamental to human interactions. How much we trust other people directl...
We present the effect of adapting to human preferences on trust in a human-robot teaming task. The t...
The paper discusses how a human-robot team can remain “co-hesive ” while performing under stress. By...
We are interested in asymmetric human-robot teams adhering to a "supervisor-worker" relationship, wh...
This paper presents a pilot study in which we examine the interactions between human-robot teammate ...
This chapter examines the physical interaction between two humans and between a human and a robot si...
In this paper, we present a framework for trust-aware sequential decision-making in a human-robot te...