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Article

When to (or not to) trust intelligent machines: Insights from an evolutionary game theory analysis of trust in repeated games

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Citation

Han TA, Perret C & Powers ST (2021) When to (or not to) trust intelligent machines: Insights from an evolutionary game theory analysis of trust in repeated games. Cognitive Systems Research, 68, pp. 111-124. https://doi.org/10.1016/j.cogsys.2021.02.003

Abstract
The actions of intelligent agents, such as chatbots, recommender systems, and virtual assistants are typically not fully transparent to the user. Consequently, users take the risk that such agents act in ways opposed to the users’ preferences or goals. It is often argued that people use trust as a cognitive shortcut to reduce the complexity of such interactions. Here we formalise this by using the methods of evolutionary game theory to study the viability of trust-based strategies in repeated games. These are reciprocal strategies that cooperate as long as the other player is observed to be cooperating. Unlike classic reciprocal strategies, once mutual cooperation has been observed for a threshold number of rounds they stop checking their co-player’s behaviour every round, and instead only check it with some probability. By doing so, they reduce the opportunity cost of verifying whether the action of their co-player was actually cooperative. We demonstrate that these trust-based strategies can outcompete strategies that are always conditional, such as Tit-for-Tat, when the opportunity cost is non-negligible. We argue that this cost is likely to be greater when the interaction is between people and intelligent agents, because of the reduced transparency of the agent. Consequently, we expect people to use trust-based strategies more frequently in interactions with intelligent agents. Our results provide new, important insights into the design of mechanisms for facilitating interactions between humans and intelligent agents, where trust is an essential factor.

Keywords
Trust; Evolutionary game theory; Intelligent agents; Cooperation; Prisoner’s dilemma; Repeated games

Journal
Cognitive Systems Research: Volume 68

StatusPublished
Funders
Publication date31/08/2021
Publication date online08/04/2021
Date accepted by journal06/02/2021
PublisherElsevier BV
ISSN1389-0417

People (1)

Dr Simon Powers

Dr Simon Powers

Lecturer in Trustworthy Computer Systems, Computing Science