Yiping Yuan scite author profile

Yiping Yuan

5Publications

14Citation Statements Received

106Citation Statements Given

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109

104

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LinkedIn (United States)

Publications

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A State Transition Model for Mobile Notifications via Survival Analysis

Yuan

Zhang

Chatterjee

et al. 2019

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Mobile notifications have become a major communication channel for social networking services to keep users informed and engaged. As more mobile applications push notifications to users, they constantly face decisions on what to send, when and how. A lack of research and methodology commonly leads to heuristic decision making. Many notifications arrive at an inappropriate moment or introduce too many interruptions, failing to provide value to users and spurring users' complaints. In this paper we explore unique features of interactions between mobile notifications and user engagement. We propose a state transition framework to quantitatively evaluate the effectiveness of notifications. Within this framework, we develop a survival model for badging notifications assuming a log-linear structure and a Weibull distribution. Our results show that this model achieves more flexibility for applications and superior prediction accuracy than a logistic regression model. In particular, we provide an online use case on notification delivery time optimization to show how we make better decisions, drive more user engagement, and provide more value to users. CCS CONCEPTS• Information systems → Data mining; • Mathematics of computing → Survival analysis.

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Multi-objective Optimization of Notifications Using Offline Reinforcement Learning

Prabhakar

Yuan

Yang

et al. 2022

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Mobile notification systems play a major role in a variety of applications to communicate, send alerts and reminders to the users to inform them about news, events or messages. In this paper, we formulate the near-real-time notification decision problem as a Markov Decision Process where we optimize for multiple objectives in the rewards. We propose an end-to-end offline reinforcement learning framework to optimize sequential notification decisions. We address the challenge of offline learning using a Double Deep Qnetwork method based on Conservative Q-learning that mitigates the distributional shift problem and Q-value overestimation. We illustrate our fully-deployed system and demonstrate the performance and benefits of the proposed approach through both offline and online experiments. CCS CONCEPTS• Theory of computation → Markov decision processes; Reinforcement learning; • Computing methodologies → Q-learning; Neural networks.

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DeepPvisit: A Deep Survival Model for Notification Management

Yang

Ghebreab

et al. 2023

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Feedback Shaping

Yuan

et al. 2019

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Social media platforms bring together content creators and content consumers through recommender systems like newsfeed. The focus of such recommender systems has thus far been primarily on modeling the content consumer preferences and optimizing for their experience. However, it is equally critical to nurture content creation by prioritizing the creators' interests, as quality content forms the seed for sustainable engagement and conversations, bringing in new consumers while retaining existing ones. In this work, we propose a modeling approach to predict how feedback from content consumers incentivizes creators. We then leverage this model to optimize the newsfeed experience for content creators by reshaping the feedback distribution, leading to a more active content ecosystem. Practically, we discuss how we balance the user experience for both consumers and creators, and how we carry out online A/B tests with strong network effects. We present a deployed use case on the LinkedIn newsfeed, where we used this approach to improve content creation significantly without compromising the consumers' experience.

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Skill Graph Construction From Semantic Understanding

Lin

Yuan

Jin

et al. 2023

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Yiping Yuan

A State Transition Model for Mobile Notifications via Survival Analysis

Multi-objective Optimization of Notifications Using Offline Reinforcement Learning

DeepPvisit: A Deep Survival Model for Notification Management

Feedback Shaping

Skill Graph Construction From Semantic Understanding

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