Can Probabilistic Feedback Drive User Impacts in Online Platforms?

Jessica Dai, Bailey Flanigan, Nika Haghtalab, Meena Jagadeesan, Chara Podimata
Proceedings of The 27th International Conference on Artificial Intelligence and Statistics, PMLR 238:2512-2520, 2024.

Abstract

A common explanation for negative user impacts of content recommender systems is misalignment between the platform’s objective and user welfare. In this work, we show that misalignment in the platform’s objective is not the only potential cause of unintended impacts on users: even when the platform’s objective is fully aligned with user welfare, the platform’s learning algorithm can induce negative downstream impacts on users. The source of these user impacts is that different pieces of content may generate observable user reactions (feedback information) at different rates; these feedback rates may correlate with content properties, such as controversiality or demographic similarity of the creator, that affect the user experience. Since differences in feedback rates can impact how often the learning algorithm engages with different content, the learning algorithm may inadvertently promote content with certain such properties. Using the multi-armed bandit framework with probabilistic feedback, we examine the relationship between feedback rates and a learning algorithm’s engagement with individual arms for different no-regret algorithms. We prove that no-regret algorithms can exhibit a wide range of dependencies: if the feedback rate of an arm increases, some no-regret algorithms engage with the arm more, some no-regret algorithms engage with the arm less, and other no-regret algorithms engage with the arm approximately the same number of times. From a platform design perspective, our results highlight the importance of looking beyond regret when measuring an algorithm’s performance, and assessing the nature of a learning algorithm’s engagement with different types of content as well as their resulting downstream impacts.

Cite this Paper


BibTeX
@InProceedings{pmlr-v238-dai24b, title = {Can Probabilistic Feedback Drive User Impacts in Online Platforms?}, author = {Dai, Jessica and Flanigan, Bailey and Haghtalab, Nika and Jagadeesan, Meena and Podimata, Chara}, booktitle = {Proceedings of The 27th International Conference on Artificial Intelligence and Statistics}, pages = {2512--2520}, year = {2024}, editor = {Dasgupta, Sanjoy and Mandt, Stephan and Li, Yingzhen}, volume = {238}, series = {Proceedings of Machine Learning Research}, month = {02--04 May}, publisher = {PMLR}, pdf = {https://proceedings.mlr.press/v238/dai24b/dai24b.pdf}, url = {https://proceedings.mlr.press/v238/dai24b.html}, abstract = {A common explanation for negative user impacts of content recommender systems is misalignment between the platform’s objective and user welfare. In this work, we show that misalignment in the platform’s objective is not the only potential cause of unintended impacts on users: even when the platform’s objective is fully aligned with user welfare, the platform’s learning algorithm can induce negative downstream impacts on users. The source of these user impacts is that different pieces of content may generate observable user reactions (feedback information) at different rates; these feedback rates may correlate with content properties, such as controversiality or demographic similarity of the creator, that affect the user experience. Since differences in feedback rates can impact how often the learning algorithm engages with different content, the learning algorithm may inadvertently promote content with certain such properties. Using the multi-armed bandit framework with probabilistic feedback, we examine the relationship between feedback rates and a learning algorithm’s engagement with individual arms for different no-regret algorithms. We prove that no-regret algorithms can exhibit a wide range of dependencies: if the feedback rate of an arm increases, some no-regret algorithms engage with the arm more, some no-regret algorithms engage with the arm less, and other no-regret algorithms engage with the arm approximately the same number of times. From a platform design perspective, our results highlight the importance of looking beyond regret when measuring an algorithm’s performance, and assessing the nature of a learning algorithm’s engagement with different types of content as well as their resulting downstream impacts.} }
Endnote
%0 Conference Paper %T Can Probabilistic Feedback Drive User Impacts in Online Platforms? %A Jessica Dai %A Bailey Flanigan %A Nika Haghtalab %A Meena Jagadeesan %A Chara Podimata %B Proceedings of The 27th International Conference on Artificial Intelligence and Statistics %C Proceedings of Machine Learning Research %D 2024 %E Sanjoy Dasgupta %E Stephan Mandt %E Yingzhen Li %F pmlr-v238-dai24b %I PMLR %P 2512--2520 %U https://proceedings.mlr.press/v238/dai24b.html %V 238 %X A common explanation for negative user impacts of content recommender systems is misalignment between the platform’s objective and user welfare. In this work, we show that misalignment in the platform’s objective is not the only potential cause of unintended impacts on users: even when the platform’s objective is fully aligned with user welfare, the platform’s learning algorithm can induce negative downstream impacts on users. The source of these user impacts is that different pieces of content may generate observable user reactions (feedback information) at different rates; these feedback rates may correlate with content properties, such as controversiality or demographic similarity of the creator, that affect the user experience. Since differences in feedback rates can impact how often the learning algorithm engages with different content, the learning algorithm may inadvertently promote content with certain such properties. Using the multi-armed bandit framework with probabilistic feedback, we examine the relationship between feedback rates and a learning algorithm’s engagement with individual arms for different no-regret algorithms. We prove that no-regret algorithms can exhibit a wide range of dependencies: if the feedback rate of an arm increases, some no-regret algorithms engage with the arm more, some no-regret algorithms engage with the arm less, and other no-regret algorithms engage with the arm approximately the same number of times. From a platform design perspective, our results highlight the importance of looking beyond regret when measuring an algorithm’s performance, and assessing the nature of a learning algorithm’s engagement with different types of content as well as their resulting downstream impacts.
APA
Dai, J., Flanigan, B., Haghtalab, N., Jagadeesan, M. & Podimata, C.. (2024). Can Probabilistic Feedback Drive User Impacts in Online Platforms?. Proceedings of The 27th International Conference on Artificial Intelligence and Statistics, in Proceedings of Machine Learning Research 238:2512-2520 Available from https://proceedings.mlr.press/v238/dai24b.html.

Related Material