Localized exploration in contextual dynamic pricing achieves dimension-free regret
We study the problem of contextual dynamic pricing with a linear demand model. We propose a novel localized exploration-then-commit (LetC) algorithm which starts with a pure exploration stage, followed by a refinement stage that explores near the learned optimal pricing policy, and finally enters a...
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| creator | Chai, Jinhang Duan, Yaqi Fan, Jianqing Wang, Kaizheng |
| description | We study the problem of contextual dynamic pricing with a linear demand
model. We propose a novel localized exploration-then-commit (LetC) algorithm
which starts with a pure exploration stage, followed by a refinement stage that
explores near the learned optimal pricing policy, and finally enters a pure
exploitation stage. The algorithm is shown to achieve a minimax optimal,
dimension-free regret bound when the time horizon exceeds a polynomial of the
covariate dimension. Furthermore, we provide a general theoretical framework
that encompasses the entire time spectrum, demonstrating how to balance
exploration and exploitation when the horizon is limited. The analysis is
powered by a novel critical inequality that depicts the
exploration-exploitation trade-off in dynamic pricing, mirroring its existing
counterpart for the bias-variance trade-off in regularized regression. Our
theoretical results are validated by extensive experiments on synthetic and
real-world data. |
| doi_str_mv | 10.48550/arxiv.2412.19252 |
| format | Article |
| fullrecord | <record><control><sourceid>arxiv_GOX</sourceid><recordid>TN_cdi_arxiv_primary_2412_19252</recordid><sourceformat>XML</sourceformat><sourcesystem>PC</sourcesystem><sourcerecordid>2412_19252</sourcerecordid><originalsourceid>FETCH-arxiv_primary_2412_192523</originalsourceid><addsrcrecordid>eNqFjrEOgkAQRK-xMOoHWLk_AMoJidZGY2Fl7MnmWHCT444sJwG_XiT2VtPMvHlKrZNdnB6ybLdF6bmLdZroODnqTM_V_eYNWn5TAdQ31gsG9g7YgfEuUB9eaKEYHNZsoBE27CpA82TqqIWCa3LtOIhKIQKhSigs1axE29Lqlwu1uZwfp2s0vecjpEYZ8q9FPlns_zc-Gh0-ew</addsrcrecordid><sourcetype>Open Access Repository</sourcetype><iscdi>true</iscdi><recordtype>article</recordtype></control><display><type>article</type><title>Localized exploration in contextual dynamic pricing achieves dimension-free regret</title><source>arXiv.org</source><creator>Chai, Jinhang ; Duan, Yaqi ; Fan, Jianqing ; Wang, Kaizheng</creator><creatorcontrib>Chai, Jinhang ; Duan, Yaqi ; Fan, Jianqing ; Wang, Kaizheng</creatorcontrib><description>We study the problem of contextual dynamic pricing with a linear demand
model. We propose a novel localized exploration-then-commit (LetC) algorithm
which starts with a pure exploration stage, followed by a refinement stage that
explores near the learned optimal pricing policy, and finally enters a pure
exploitation stage. The algorithm is shown to achieve a minimax optimal,
dimension-free regret bound when the time horizon exceeds a polynomial of the
covariate dimension. Furthermore, we provide a general theoretical framework
that encompasses the entire time spectrum, demonstrating how to balance
exploration and exploitation when the horizon is limited. The analysis is
powered by a novel critical inequality that depicts the
exploration-exploitation trade-off in dynamic pricing, mirroring its existing
counterpart for the bias-variance trade-off in regularized regression. Our
theoretical results are validated by extensive experiments on synthetic and
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model. We propose a novel localized exploration-then-commit (LetC) algorithm
which starts with a pure exploration stage, followed by a refinement stage that
explores near the learned optimal pricing policy, and finally enters a pure
exploitation stage. The algorithm is shown to achieve a minimax optimal,
dimension-free regret bound when the time horizon exceeds a polynomial of the
covariate dimension. Furthermore, we provide a general theoretical framework
that encompasses the entire time spectrum, demonstrating how to balance
exploration and exploitation when the horizon is limited. The analysis is
powered by a novel critical inequality that depicts the
exploration-exploitation trade-off in dynamic pricing, mirroring its existing
counterpart for the bias-variance trade-off in regularized regression. Our
theoretical results are validated by extensive experiments on synthetic and
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model. We propose a novel localized exploration-then-commit (LetC) algorithm
which starts with a pure exploration stage, followed by a refinement stage that
explores near the learned optimal pricing policy, and finally enters a pure
exploitation stage. The algorithm is shown to achieve a minimax optimal,
dimension-free regret bound when the time horizon exceeds a polynomial of the
covariate dimension. Furthermore, we provide a general theoretical framework
that encompasses the entire time spectrum, demonstrating how to balance
exploration and exploitation when the horizon is limited. The analysis is
powered by a novel critical inequality that depicts the
exploration-exploitation trade-off in dynamic pricing, mirroring its existing
counterpart for the bias-variance trade-off in regularized regression. Our
theoretical results are validated by extensive experiments on synthetic and
real-world data.</abstract><doi>10.48550/arxiv.2412.19252</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Learning Mathematics - Optimization and Control Statistics - Machine Learning |
| title | Localized exploration in contextual dynamic pricing achieves dimension-free regret |
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