Fair and Efficient Cake Division with Connected Pieces

Arunachaleswaran, Eshwar Ram; Barman, Siddharth; Kumar, Rachitesh; Rathi, Nidhi

doi:10.1007/978-3-030-35389-6_5

Cited by 22 publications

(36 citation statements)

References 26 publications

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“…If there is an unassigned connected bundle U ∈ U(P) that some agent envies, then the algorithm finds an inclusion-wise minimal subset of U that is envied and allocates it to an envious agent. While this preserves exact envy-freeness in the cake-cutting setting of Arunachaleswaran et al [3], in our setting we argue that inclusion-wise minimality preserves the EF1 property of P. We also argue that this iterative process terminates at a partial allocation P that satisfies the desired social welfare guarantee. Finally, we use the algorithm of Lipton et al [20] (see also [2]) to extend this partial EF1 allocation into a complete EF1 allocation without losing social welfare.…”

Section: The Case Of High Optimal Welfarementioning

confidence: 48%

“…For subadditive valuations, given the absence of succinct representation, we assume access to a demandquery oracle. 3 As a consequence of this result, we also settle the price of a weaker fairness notion-proportionality up to one good (Prop1)-as Θ( √ n) for additive valuations.…”

Section: Introductionmentioning

confidence: 72%

“…This allocation trivially satisfies two properties: it is EF1, and each P i is a connected bundle in L. The algorithm then iteratively updates P to improve its social welfare while maintaining both these properties. This iterative process is inspired by a similar algorithm for (divisible) cake-cutting (Algorithm 1, Arunachaleswaran et al [3]).…”

Section: The Case Of High Optimal Welfarementioning

confidence: 99%

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Optimal Bounds on the Price of Fairness for Indivisible Goods

Barman

Bhaskar

Shah

2020

Web and Internet Economics

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In the allocation of resources to a set of agents, how do fairness guarantees impact social welfare? A quantitative measure of this impact is the price of fairness, which measures the worst-case loss of social welfare due to fairness constraints. While initially studied for divisible goods, recent work on the price of fairness also studies the setting of indivisible goods.In this paper, we resolve the price of two well-studied fairness notions in the context of indivisible goods: envy-freeness up to one good (EF1) and approximate maximin share (MMS). For both EF1 and 1 /2-MMS we show, via different techniques, that the price of fairness is O( √ n), where n is the number of agents. From previous work, it follows that these guarantees are tight. We, in fact, obtain the price-of-fairness results via efficient algorithms. For 1 /2-MMS our bound holds for additive valuations, whereas for EF1, it holds for the more general class of subadditive valuations. This resolves an open problem posed by Bei et al. (2019).

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Section: The Case Of High Optimal Welfarementioning

confidence: 48%

Section: Introductionmentioning

confidence: 72%

Section: The Case Of High Optimal Welfarementioning

confidence: 99%

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Optimal Bounds on the Price of Fairness for Indivisible Goods

Barman

Bhaskar

Shah

2020

Web and Internet Economics

Self Cite

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“…While the approximations of 1/3 and 1/4 may not seem impressive, they represent the first non-trivial approximations for polynomial-time algorithms in the context of contiguous cake cutting (besides the very recent algorithm of Arunachaleswaran et al (2019), achieving the weaker additive approximation of 1/2 as discussed in Section 1.2). Indeed, even the classical Dubins-Spanier protocol, which guarantees every agent a value of 1/n, may allocate a piece which an agent values 1/n and another piece to a second agent which the first agent values (n − 1)/n-this leads to an envy of (n − 2)/n, which converges to 1 for large n. Improving these approximations or establishing lower bounds is an interesting and important question for future research.…”

Section: It Is Clear Thatmentioning

confidence: 98%

Contiguous Cake Cutting: Hardness Results and Approximation Algorithms

Goldberg¹,

Hollender²,

Suksompong

2020

jair

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We study the fair allocation of a cake, which serves as a metaphor for a divisible resource, under the requirement that each agent should receive a contiguous piece of the cake. While it is known that no finite envy-free algorithm exists in this setting, we exhibit efficient algorithms that produce allocations with low envy among the agents. We then establish NP-hardness results for various decision problems on the existence of envy-free allocations, such as when we fix the ordering of the agents or constrain the positions of certain cuts. In addition, we consider a discretized setting where indivisible items lie on a line and show a number of hardness results extending and strengthening those from prior work. Finally, we investigate connections between approximate and exact envy-freeness, as well as between continuous and discrete cake cutting.

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“…Recently, Arunachaleswaran et al (2019) developed an efficient algorithm that computes a contiguous cake division with multiplicatively bounded envy-in particular, each agent's envy is bounded by a multiplicative factor of 3. We remark that our approximation algorithms are incomparable to their result.…”

Section: Further Related Workmentioning

confidence: 99%