Hardness Results for Signaling in Bayesian Zero-Sum and Network Routing Games

Bhaskar, Umang; Cheng, Yu; Ko, Young Kun; Swamy, Chaitanya

doi:10.1145/2940716.2940753

Cited by 67 publications

(71 citation statements)

References 32 publications

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“…[24,4] There exists a constant c ∈ (0, 1) and constant a ∈ (0, 1) such that it is NP-hard to approximate f + (a) to within c (additively) for any monotone submodular function f . 6 In the remainder of the reduction, we show that any (1 − δ)-approximate ǫ-persuasive private persuasion in the constructed instances can be converted to an additively (2ǫ/a + 2δ)-optimal algorithm for computing f + (x). Invoking Lemma B.1, this implies the NP-hardness of designing a (1 − ǫ)-approximate ǫ-persuasive private signaling scheme in poly(n 1/ǫ , |Θ|) time.…”

Section: B2 Proof Of Proposition 44mentioning

confidence: 97%

On the Tractability of Public Persuasion with No Externalities

2020

Proceedings of the Fourteenth Annual ACM-SIAM Symposium on Discrete Algorithms

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Persuasion studies how a principal can influence agents' decisions via strategic information revelation -often described as a signaling scheme -in order to yield the most desirable equilibrium outcome. A basic question that has attracted much recent attention is how to compute the optimal public signaling scheme, a.k.a., public persuasion, which is motivated by various applications including auction design, routing, voting, marketing, queuing, etc. Unfortunately, most algorithmic studies in this space exhibit quite negative results and are rifle with computational intractability. Given such background, this paper seeks to understand when public persuasion is tractable and how tractable it can be. We focus on a fundamental multi-agent persuasion model introduced by Arieli and Babichenko [3]: many agents, no inter-agent externalities and binary agent actions, and identify well-motivated circumstances under which efficient algorithms are possible. En route, we also develop new algorithmic techniques and demonstrate that they can be applicable to other public persuasion problems or even beyond.We start by proving that optimal public persuasion in our model is fixed parameter tractable. Our main result here builds on an interesting connection to a basic question in combinatorial geometry: how many cells can n hyperplanes divide R d into? We use this connection to show a new characterization of public persuasion, which then enables efficient algorithm design. Second, we relax agent incentives and show that optimal public persuasion admits a bi-criteria PTAS for the widely studied class of monotone submodular objectives, and this approximation is tight. To prove this result, we establish an intriguing "noise stability" property of submodular functions which strictly generalizes the key result of Cheraghchi et al. [15], originally motivated by applications of learning submodular functions and differential privacy. Finally, motivated by automated application of persuasion, we consider relaxing the equilibrium concept of the model to coarse correlated equilibrium. Here, using a sophisticated primal-dual analysis, we prove that optimal public persuasion admits an efficient algorithm if and only if the combinatorial problem of maximizing the sender's objective minus any linear function can be solved efficiently, thus establishing their polynomial-time equivalence.1 Coarse correlated equilibrium for Bayesian games has been studied in other settings such as auctions [11,13], congestion games [30] and general Bayesian games [22], and was coined Bayesian coarse correlated equilibrium by Hartline et al. [22].

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Section: B2 Proof Of Proposition 44mentioning

confidence: 97%

On the Tractability of Public Persuasion with No Externalities

2020

Proceedings of the Fourteenth Annual ACM-SIAM Symposium on Discrete Algorithms

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“…the logarithm of the probability assigned to e. Its "expected score function" is G(w) = e w e log w e = −H(w), the negative of Shannon entropy. The quadratic scoring rule is R(w, e) = 2w e − w 2 2 . Its expected score function is G(w) = w 2 2 .…”

Section: Prediction Market Modelmentioning

confidence: 99%

“…The quadratic scoring rule is R(w, e) = 2w e − w 2 2 . Its expected score function is G(w) = w 2 2 . Both are strictly proper.…”

Section: Prediction Market Modelmentioning

confidence: 99%

“…When the total number of grid points are polynomially bounded, we obtain efficient algorithms. This idea has been employed in algorithmic persuasion (e.g., [6,2]).…”

Section: Fptas For Different Parameter Regimesmentioning

confidence: 99%

“…. For any δ > 0, let ǫ be as defined in Equation (10) and K = log(2d/ǫ)d 2 2ǫ 2 . There always exists a (4Lǫ + δ)-optimal signaling scheme whose posterior beliefs are all K-uniform (i.e., in ∆ d (K)).…”

mentioning

confidence: 99%

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Computing Equilibria of Prediction Markets via Persuasion

Anunrojwong

Waggoner

2019

Web and Internet Economics

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We study the computation of equilibria in prediction markets in perhaps the most fundamental special case with two players and three trading opportunities. To do so, we show equivalence of prediction market equilibria with those of a simpler signaling game with commitment introduced by Kong and Schoenebeck (2018). We then extend their results by giving computationally efficient algorithms for additional parameter regimes. Our approach leverages a new connection between prediction markets and Bayesian persuasion, which also reveals interesting conceptual insights.

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Persuasion and Incentives Through the Lens of Duality

Dughmi

Niazadeh

Psomas

et al. 2019

Web and Internet Economics

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Lagrangian duality underlies both classical and modern mechanism design. In particular, the dual perspective often permits simple and detail-free characterizations of optimal and approximately optimal mechanisms. This paper applies this same methodology to a close cousin of traditional mechanism design, one which shares conceptual and technical elements with its more mature relative: the burgeoning field of persuasion. The dual perspective permits us to analyze optimal persuasion schemes both in settings which have been analyzed in prior work, as well as for natural generalizations which we are the first to explore in depth. Most notably, we permit combining persuasion policies with payments, which serve to augment the persuasion power of the scheme. In both single and multi-receiver settings, as well as under a variety of constraints on payments, we employ duality to obtain structural insights, as well as tractable and simple characterizations of optimal policies.

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Hardness Results for Signaling in Bayesian Zero-Sum and Network Routing Games

Cited by 67 publications

References 32 publications

On the Tractability of Public Persuasion with No Externalities

On the Tractability of Public Persuasion with No Externalities

Computing Equilibria of Prediction Markets via Persuasion

Persuasion and Incentives Through the Lens of Duality

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