Optimal decision making requires appropriate evaluation of advice. Recent literature reports that algorithm aversion reduces the effectiveness of predictive algorithms. However, it remains unclear how people recover from bad advice given by an otherwise good advisor. Previous work has focused on algorithm aversion at a single time point. We extend this work by examining successive decisions in a time series forecasting task using an online between-subjects experiment (N = 87). Our empirical results do not confirm algorithm aversion immediately after bad advice. The estimated effect suggests an increasing algorithm appreciation over time. Our work extends the current knowledge on algorithm aversion with insights into how weight on advice is ...
Humankind is becoming increasingly dependent on algorithms in their everyday life. Algorithmic decis...
Algorithms already carry out many tasks more reliably than human experts. Nevertheless, some subject...
To study the phenomenon of algorithm aversion, this study incorporated a human-in-the loop experienc...
Research shows that evidence-based algorithms more accurately predict the future than do human forec...
Many individuals encounter algorithmic decision-making agents with algorithm aversion – the irration...
Research shows that evidence-based algorithms more accurately predict the future than do human forec...
Owing to advancements in artificial intelligence (AI) and specifically in machine learning, informat...
Owing to advancements in artificial intelligence (AI) and specifically in machine learning, informat...
Although evidence-based algorithms consistently outperform human forecasters, people often fail to u...
Research shows that evidence-based algorithms more accurately predict the future than do human forec...
Research shows that evidence-based algorithms more accurately predict the future than do human forec...
Research shows that evidence-based algorithms more accurately predict the future than do human forec...
Although algorithms make more accurate forecasts than humans in many applications, decision-makers o...
Algorithms consistently perform well on various prediction tasks, but people often mistrust their ad...
Abstract With the continuing application of artificial intelligence (AI) technologies into decis...
Humankind is becoming increasingly dependent on algorithms in their everyday life. Algorithmic decis...
Algorithms already carry out many tasks more reliably than human experts. Nevertheless, some subject...
To study the phenomenon of algorithm aversion, this study incorporated a human-in-the loop experienc...
Research shows that evidence-based algorithms more accurately predict the future than do human forec...
Many individuals encounter algorithmic decision-making agents with algorithm aversion – the irration...
Research shows that evidence-based algorithms more accurately predict the future than do human forec...
Owing to advancements in artificial intelligence (AI) and specifically in machine learning, informat...
Owing to advancements in artificial intelligence (AI) and specifically in machine learning, informat...
Although evidence-based algorithms consistently outperform human forecasters, people often fail to u...
Research shows that evidence-based algorithms more accurately predict the future than do human forec...
Research shows that evidence-based algorithms more accurately predict the future than do human forec...
Research shows that evidence-based algorithms more accurately predict the future than do human forec...
Although algorithms make more accurate forecasts than humans in many applications, decision-makers o...
Algorithms consistently perform well on various prediction tasks, but people often mistrust their ad...
Abstract With the continuing application of artificial intelligence (AI) technologies into decis...
Humankind is becoming increasingly dependent on algorithms in their everyday life. Algorithmic decis...
Algorithms already carry out many tasks more reliably than human experts. Nevertheless, some subject...
To study the phenomenon of algorithm aversion, this study incorporated a human-in-the loop experienc...