Simon Mackenzie scite author profile

We consider the well-studied cake cutting problem in which the goal is to find an envy-free allocation based on queries from n agents. The problem has received attention in computer science, mathematics, and economics. It has been a major open problem whether there exists a discrete and bounded envy-free protocol. We resolve the problem by proposing a discrete and bounded envy-free protocol for any number of agents. The maximum number of queries required by the protocol is n n n n n n . We additionally show that even if we do not run our protocol to completion, it can find in at most n 3 (n 2 ) n queries a partial allocation of the cake that achieves proportionality (each agent gets at least 1 /n of the value of the whole cake) and envy-freeness. Finally we show that an envy-free partial allocation can be computed in at most n 3 (n 2 ) n queries such that each agent gets a connected piece that gives the agent at least 1 /3n of the value of the whole cake.

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Fair assignment of indivisible objects under ordinal preferences

Aziz

Gaspers

Mackenzie

et al. 2015

Artificial Intelligence

115

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We consider the discrete assignment problem in which agents express ordinal preferences over objects and these objects are allocated to the agents in a fair manner. We use the stochastic dominance relation between fractional or randomized allocations to systematically define varying notions of proportionality and envy-freeness for discrete assignments. The computational complexity of checking whether a fair assignment exists is studied for these fairness notions. We also characterize the conditions under which a fair assignment is guaranteed to exist. For a number of fairness concepts, polynomial-time algorithms are presented to check whether a fair assignment exists. Our algorithmic results also extend to the case of unequal entitlements of agents. Our NP-hardness result, which holds for several variants of envy-freeness, answers an open question posed by Bouveret, Endriss, and Lang (ECAI 2010). We also propose fairness concepts that always suggest a non-empty set of assignments with meaningful fairness properties. Among these concepts, optimal proportionality and optimal weak proportionality appear to be desirable fairness concepts.

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A discrete and bounded envy-free cake cutting protocol for four agents

Aziz

Mackenzie

2016

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We consider the well-studied cake cutting problem in which the goal is to identify an envy-free allocation based on a minimal number of queries from the agents. The problem has attracted considerable attention within various branches of computer science, mathematics, and economics. Although, the elegant Selfridge-Conway envy-free protocol for three agents has been known since 1960, it has been a major open problem to obtain a bounded envy-free protocol for more than three agents. The problem has been termed the central open problem in cake cutting. We solve this problem by proposing a discrete and bounded envy-free protocol for four agents.

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Liquid Democracy: An Algorithmic Perspective

Kahng

Mackenzie

Procaccia

2021

jair

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We study liquid democracy, a collective decision making paradigm that allows voters to transitively delegate their votes, through an algorithmic lens. In our model, there are two alternatives, one correct and one incorrect, and we are interested in the probability that the majority opinion is correct. Our main question is whether there exist delegation mechanisms that are guaranteed to outperform direct voting, in the sense of being always at least as likely, and sometimes more likely, to make a correct decision. Even though we assume that voters can only delegate their votes to better-informed voters, we show that local delegation mechanisms, which only take the local neighborhood of each voter as input (and, arguably, capture the spirit of liquid democracy), cannot provide the foregoing guarantee. By contrast, we design a non-local delegation mechanism that does provably outperform direct voting under mild assumptions about voters.

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The Fluid Mechanics of Liquid Democracy

Gölz

Kahng

Mackenzie

et al. 2018

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Liquid democracy is the principle of making collective decisions by letting agents transitively delegate their votes. Despite its significant appeal, it has become apparent that a weakness of liquid democracy is that a small subset of agents may gain massive influence. To address this, we propose to change the current practice by allowing agents to specify multiple delegation options instead of just one. Much like in nature, where -fluid mechanics teaches us -liquid maintains an equal level in connected vessels, so do we seek to control the flow of votes in a way that balances influence as much as possible. Specifically, we analyze the problem of choosing delegations to approximately minimize the maximum number of votes entrusted to any agent, by drawing connections to the literature on confluent flow. We also introduce a random graph model for liquid democracy, and use it to demonstrate the benefits of our approach both theoretically and empirically.

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Fixing balanced knockout and double elimination tournaments

Aziz

Gaspers

Mackenzie

et al. 2018

Artificial Intelligence

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The Drivers of Perceptions of Anti-Social Behaviour: Summary

Mackenzie¹,

Bannister²,

Flint³

et al. 2010

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The Market as Criminal and Criminals in the Market: Reducing Opportunities for Organised Crime in the International Antiquities Market

Mackenzie

2011

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Simon Mackenzie

A Discrete and Bounded Envy-Free Cake Cutting Protocol for Any Number of Agents

Fair assignment of indivisible objects under ordinal preferences

A discrete and bounded envy-free cake cutting protocol for four agents

Liquid Democracy: An Algorithmic Perspective

The Fluid Mechanics of Liquid Democracy

Fixing balanced knockout and double elimination tournaments

The Drivers of Perceptions of Anti-Social Behaviour: Summary

The Market as Criminal and Criminals in the Market: Reducing Opportunities for Organised Crime in the International Antiquities Market

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