핵심 개념
Design features of AI interfaces can have cascading impacts on user behavior and welfare through feedback loops, extending beyond previously considered risks.
초록
The article examines how the design of interfaces with adaptive AI systems can have significant negative impacts that are often overlooked in evaluations of AI systems' social and ethical risks.
The authors first conduct a scoping review to identify four main categories of harmful design patterns in AI interfaces:
- "Traditional" dark patterns that steer users towards detrimental actions
- Anthropomorphic cues that mislead users about AI capabilities and risks
- Insufficient explainability and transparency that conceal important information
- Seamless designs and lack of friction that encourage impulsive and mindless interactions
The authors then propose the "Design-Enhanced Control of AI systems" (DECAI) model, which draws on control systems theory to systematically analyze how these design patterns can shape user behavior and welfare through feedback loops over time.
The DECAI model outlines five stages to evaluate the impact of a design feature:
- Identifying the conditions of the receiving user
- Determining the relevant interface design features and their affordances
- Assessing the impact of these affordances on user state
- Examining how the impact of these affordances evolves over time
- Considering the frequency of updates in the human-AI interaction cycle
The authors demonstrate the application of DECAI through two case studies on recommendation systems and conversational language models, generating testable hypotheses for empirical investigation.
인용구
"Design features of interfaces with adaptive AI systems can have cascading impacts, driven by feedback loops, which extend beyond those previously considered."
"Interfaces do not only facilitate such autonomy-undermining influence on user behavior, but they also shape user perceptions of technologies, their capabilities, and their risks."
"Every time a user interacts with an adaptive system, they supply it with new information that influences that system's future outcomes."