Research shows that evidence-based algorithms more accurately predict the future than do human forecasters. Yet when forecasters are deciding whether to use a human forecaster or a statistical algorithm, they often choose the human forecaster. This phenomenon, which we call algorithm aversion, is costly, and it is important to understand its causes. In Chapter 1, we show that people are especially averse to algorithmic forecasters after seeing them perform, even when they see them outperform a human forecaster. This is because people more quickly lose confidence in algorithmic than human forecasters after seeing them make the same mistake. In Chapter 2, we investigate how aversion to imperfect algorithms might be overcome. We find that peop...
Abstract With the continuing application of artificial intelligence (AI) technologies into decis...
We experimentally investigated the relationship between participants' reliance on algorithms, their ...
Artificial intelligence (AI) algorithms intervene and contribute to human decision-making processes ...
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...
Research shows that evidence-based algorithms more accurately predict the future than do human forec...
Although evidence-based algorithms consistently outperform human forecasters, people often fail to u...
Although algorithms make more accurate forecasts than humans in many applications, decision-makers o...
It has been long acknowledged that computational prediction procedures may yield more accurate predi...
With technological developments in artificial intelligence, algorithms are increasingly capable to p...
With technological developments in artificial intelligence, algorithms are increasingly capable to p...
Optimal decision making requires appropriate evaluation of advice. Recent literature reports that al...
Algorithms already carry out many tasks more reliably than human experts. Nevertheless, some subject...
The past decade has seen incredible strides made in the ability for computers and algorithms to fore...
Abstract With the continuing application of artificial intelligence (AI) technologies into decis...
We experimentally investigated the relationship between participants' reliance on algorithms, their ...
Artificial intelligence (AI) algorithms intervene and contribute to human decision-making processes ...
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...
Research shows that evidence-based algorithms more accurately predict the future than do human forec...
Although evidence-based algorithms consistently outperform human forecasters, people often fail to u...
Although algorithms make more accurate forecasts than humans in many applications, decision-makers o...
It has been long acknowledged that computational prediction procedures may yield more accurate predi...
With technological developments in artificial intelligence, algorithms are increasingly capable to p...
With technological developments in artificial intelligence, algorithms are increasingly capable to p...
Optimal decision making requires appropriate evaluation of advice. Recent literature reports that al...
Algorithms already carry out many tasks more reliably than human experts. Nevertheless, some subject...
The past decade has seen incredible strides made in the ability for computers and algorithms to fore...
Abstract With the continuing application of artificial intelligence (AI) technologies into decis...
We experimentally investigated the relationship between participants' reliance on algorithms, their ...
Artificial intelligence (AI) algorithms intervene and contribute to human decision-making processes ...