在很多在线平台上�,�,,�,�,�,,,用户能够观察其他用户行为来进建�,�,,�,�,�,,,并结合可能占有的个人信息做出决策�。。�。�。。一方面�,�,,�,�,�,,,这种观察进建可能会导致用户选择“随大流”�,�,,�,�,�,,,进而可能侵害社会总效益�。。�。�。。另一方面�,�,,�,�,�,,,用户可能会观察到不成靠的了局�,�,,�,�,�,,,好比部门用户说谎或者观察了局不正确�。。�。�。。有趣的是�,�,,�,�,�,,,近期钻研发现�,�,,�,�,�,,,在某些情况下基于不成靠观测的观察进建反而能够削减“随大流”景象的产生�。。�。�。。这类反直觉景象背后的性质原因是什么呢�???�?�?其对于在线平台的设计与优化又将带来怎么的洞见呢�???�?�?
第七期 z6首页-TNSE 结合卓越讲座系列活动�,�,,�,�,�,,,我们约请美国西北大学的 Randall Berry 教授介绍基于不成靠观测的观察进建�,�,,�,�,�,,,并分享他在这个领域内的有关钻研成就与有趣发现�。。�。�。。
z6首页-TNSE Joint Distinguished Seminar Series is co-sponsored by IEEE Transactions on Network Science and Engineering (TNSE) and Shenzhen Institute of Artificial Intelligence and Robotics for Society (z6首页), with joint support from The Chinese University of Hong Kong, Shenzhen, Network Communication and Economics Laboratory (NCEL), and IEEE. This series aims to bring together top international experts and scholars in the field of network science and engineering to share cutting-edge scientific and technological achievements.
Join the seminar on March 31 through Bilibili (http://live.bilibili.com/22587709).
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Jianwei Huang
Vice President, z6首页; Presidential Chair Professor, CUHK-Shenzhen; Editor-in-Chief, IEEE TNSE; IEEE Fellow; AAIA Fellow
Executive Chair
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Randall Berry
Chair and John A. Dever Professor of Electrical and Computer Engineering, Northwestern University; NSF CAREER Award, 2003; Principal Engineer of Roberson and Associates; IEEE Fellow
Observational Learning with Unreliable observations
Randall Berry教授于2000年参与西北大学�,�,,�,�,�,,,现任职电气与推算机工程系主任�,�,,�,�,�,,,也是该系的John A. Dever教授�。。�。�。。他曾在麻省理工学院林肯尝试室高级网络组担任技术人员�,�,,�,�,�,,,目前是Roberson and Associates公司的首席工程师�。。�。�。。他在2003年获得了美国国度科学基金会事业奖(CAREER award from the National Science Foundation)�,�,,�,�,�,,,还于2014年获评IEEE Fellow�。。�。�。。他是2015、2017年IEEE Workshop on Smart Data Pricing和2016年WiOPT的最佳论文奖获得者�。。�。�。。Randall Berry教授曾担任TWC和TOIT的编纂�,�,,�,�,�,,,目前是JCN的分区编纂以及OJ-COMS的领域编纂�。。�。�。。他的钻研兴致涵盖无线通讯、推算机网络、网络经济学和信息论�。。�。�。。
Many online platforms enable agents to learn from observing other’s actions. Such observational learning can be modeled via a Bayesian game in which agents sequentially choose an action to take. Agents base their decision on whatever private information they may have as well as the observed actions of the other agents. Such models can lead to herding behavior or information cascades in which agents eventually “follow the crowd”. In this talk, we will discuss a line of work that considers the impact of different ways in which an agent’s observations may be corrupted including having some fraction of the agent’s lie about their action or having some fraction of the observations corrupted by noise. Interestingly, these models often show a non-monotonic behavior in the “level" of corruption, so that in some cases poorer observations may lead to better performance. We also discuss the relationship to the classic Blackwell ordering of information structures for single agent decision problems.
