Frequency capping in online advertising

Niv Buchbinder; Moran Feldman; Arpita Ghosh; Joseph Naor

doi:10.1007/s10951-014-0367-z

Frequency capping in online advertising

Niv Buchbinder, Moran Feldman, Arpita Ghosh, Joseph Naor

نتاج البحث: نشر في مجلة › مقالة › مراجعة النظراء

ملخص

We study the following online problem. There are n advertisers. Each advertiser a_i has a total demand d_i and a value v _i for each supply unit. Supply units arrive one by one in an online fashion, and must be allocated to an agent immediately. Each unit is associated with a user, and each advertiser a_i is willing to accept no more than f_i units associated with any single user (the value f_i is called the frequency cap of advertiser a_i). The goal is to design an online allocation algorithm maximizing the total value. We first show a deterministic 3/4 -competitiveness upper bound, which holds even when all frequency caps are 1, and all advertisers share identical values and demands. A competitive ratio approaching 1-1/e can be achieved via a reduction to a different model considered by Goel and Mehta (WINE '07: Workshop on Internet and Network, Economics: 335-340, 2007). Our main contribution is analyzing two 3/4 -competitive greedy algorithms for the cases of equal values, and arbitrary valuations with equal integral demand to frequency cap ratios. Finally, we give a primal-dual algorithm which may serve as a good starting point for improving upon the ratio of 1-1/e.

اللغة الأصلية	الإنجليزيّة
الصفحات (من إلى)	385-398
عدد الصفحات	14
دورية	Journal of Scheduling
مستوى الصوت	17
رقم الإصدار	4
المعرِّفات الرقمية للأشياء	https://doi.org/10.1007/s10951-014-0367-z
حالة النشر	نُشِر - أغسطس 2014
منشور خارجيًا	نعم

ملاحظة ببليوغرافية

Funding Information:
Acknowledgments We are extremely grateful to Ning Chen for several helpful discussions, and for first suggesting the total demand algorithm. Research supported in part by ISF Grant 954/11, and by BSF Grant 2010426. Research supported in part by the Google InterUniversity Center for Electronic Markets, by ISF Grant 954/11, and by BSF Grant 2010426.

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10.1007/s10951-014-0367-z

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Link to publication in Scopus

قم بذكر هذا

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title = "Frequency capping in online advertising",

abstract = "We study the following online problem. There are n advertisers. Each advertiser ai has a total demand di and a value v i for each supply unit. Supply units arrive one by one in an online fashion, and must be allocated to an agent immediately. Each unit is associated with a user, and each advertiser ai is willing to accept no more than fi units associated with any single user (the value fi is called the frequency cap of advertiser ai). The goal is to design an online allocation algorithm maximizing the total value. We first show a deterministic 3/4 -competitiveness upper bound, which holds even when all frequency caps are 1, and all advertisers share identical values and demands. A competitive ratio approaching 1-1/e can be achieved via a reduction to a different model considered by Goel and Mehta (WINE '07: Workshop on Internet and Network, Economics: 335-340, 2007). Our main contribution is analyzing two 3/4 -competitive greedy algorithms for the cases of equal values, and arbitrary valuations with equal integral demand to frequency cap ratios. Finally, we give a primal-dual algorithm which may serve as a good starting point for improving upon the ratio of 1-1/e.",

keywords = "Advertising, Competitive analysis, Frequency capping, Online allocation",

author = "Niv Buchbinder and Moran Feldman and Arpita Ghosh and Joseph Naor",

note = "Funding Information: Acknowledgments We are extremely grateful to Ning Chen for several helpful discussions, and for first suggesting the total demand algorithm. Research supported in part by ISF Grant 954/11, and by BSF Grant 2010426. Research supported in part by the Google InterUniversity Center for Electronic Markets, by ISF Grant 954/11, and by BSF Grant 2010426.",

year = "2014",

month = aug,

doi = "10.1007/s10951-014-0367-z",

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AU - Buchbinder, Niv

AU - Feldman, Moran

AU - Ghosh, Arpita

AU - Naor, Joseph

N1 - Funding Information: Acknowledgments We are extremely grateful to Ning Chen for several helpful discussions, and for first suggesting the total demand algorithm. Research supported in part by ISF Grant 954/11, and by BSF Grant 2010426. Research supported in part by the Google InterUniversity Center for Electronic Markets, by ISF Grant 954/11, and by BSF Grant 2010426.

PY - 2014/8

Y1 - 2014/8

N2 - We study the following online problem. There are n advertisers. Each advertiser ai has a total demand di and a value v i for each supply unit. Supply units arrive one by one in an online fashion, and must be allocated to an agent immediately. Each unit is associated with a user, and each advertiser ai is willing to accept no more than fi units associated with any single user (the value fi is called the frequency cap of advertiser ai). The goal is to design an online allocation algorithm maximizing the total value. We first show a deterministic 3/4 -competitiveness upper bound, which holds even when all frequency caps are 1, and all advertisers share identical values and demands. A competitive ratio approaching 1-1/e can be achieved via a reduction to a different model considered by Goel and Mehta (WINE '07: Workshop on Internet and Network, Economics: 335-340, 2007). Our main contribution is analyzing two 3/4 -competitive greedy algorithms for the cases of equal values, and arbitrary valuations with equal integral demand to frequency cap ratios. Finally, we give a primal-dual algorithm which may serve as a good starting point for improving upon the ratio of 1-1/e.

AB - We study the following online problem. There are n advertisers. Each advertiser ai has a total demand di and a value v i for each supply unit. Supply units arrive one by one in an online fashion, and must be allocated to an agent immediately. Each unit is associated with a user, and each advertiser ai is willing to accept no more than fi units associated with any single user (the value fi is called the frequency cap of advertiser ai). The goal is to design an online allocation algorithm maximizing the total value. We first show a deterministic 3/4 -competitiveness upper bound, which holds even when all frequency caps are 1, and all advertisers share identical values and demands. A competitive ratio approaching 1-1/e can be achieved via a reduction to a different model considered by Goel and Mehta (WINE '07: Workshop on Internet and Network, Economics: 335-340, 2007). Our main contribution is analyzing two 3/4 -competitive greedy algorithms for the cases of equal values, and arbitrary valuations with equal integral demand to frequency cap ratios. Finally, we give a primal-dual algorithm which may serve as a good starting point for improving upon the ratio of 1-1/e.

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KW - Competitive analysis

KW - Frequency capping

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Frequency capping in online advertising

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