Manipulation and Control for Approval Voting and Other Voting Systems

Manipulation andControlforApprovalVotingandOther Voting Systems Jörg Rothe Oxford Meeting for COST Action IC1205 on ComputationalSocial Choice April 16, 2013

Introduction SocialChoice Theory • votingtheory • preferenceaggregation • judgmentaggregation TheoreticalComputer Science • artificialintelligence • algorithm design • computationalcomplexitytheory - worst-case/average-casecomplexity - optimization, etc. • voting in multiagentsystems • multi-criteriadecisionmaking • metasearch, etc. ... Software agentscansystematicallyanalyzeelectionsto find optimal strategies

Introduction SocialChoice Theory • votingtheory • preferenceaggregation • judgmentaggregation TheoreticalComputer Science • artificialintelligence • algorithm design • computationalcomplexitytheory - worst-case/average-casecomplexity - optimization, etc. • computationalbarrierstoprevent • manipulation • control • bribery • ComputationalSocialChoice Software agentscansystematicallyanalyzeelectionsto find optimal strategies

Computational Social Choice Withthe power of NP-hardnessvulcanshaveconstructedcomplexityshieldstoprotectelectionsagainstmanytypesofmanipulationandcontrol.

Computational Social Choice Withthe power of NP-hardnessvulcanshaveconstructedcomplexityshieldstoprotectelectionsagainstmanytypesofmanipulationandcontrol. • Question: • Are NP-hardnesscomplexityshieldsenough? • Or do theyevaporatefor single-peakedelectorates?

NP-HardnessShields toProtectElections Elections & Voting Systems NP-hardness shields Manipulation & Control Manipulation & Control in Single-peakedElectorates Proof Sketch: CCAV in Approval

Elections • An electionis a pair (C,V) with • a finite setCofcandidates: • a finite listVofvoters. • VotersarerepresentedbytheirpreferencesoverC: • eitherbylinear orders: > > > • orbyapprovalvectors: (1,1,0,1) • Votingsystem: determineswinnersfromthepreferences

Voting Systems ApprovalVoting (AV) • votesareapprovalvectors in

Voting Systems ApprovalVoting (AV) • votesareapprovalvectors in • winners: all candidateswiththemostapprovals

Voting Systems ApprovalVoting (AV) • votesareapprovalvectors in • winners: all candidateswiththemostapprovals winners:

Voting Systems PositionalScoring Rules (formcandidates) • definedbyscoringvectorwith • eachvotergivespointstothecandidate on positioni • winners: all candidateswithmaximum score Borda: PluralityVoting (PV): k-Approval (m-k-Veto): Veto (Anti-Plurality):

Voting Systems PairwiseComparison v1: > > > v3: > > > v2: > > > v4: > > > Condorcet: beats all othercandidatesstrictly Copeland : 1pointforvictorypointsfortie Maximin: maximumofthe worstpairwisecomparison Hi, I am Ramon Llull. In 1299, Icame up with thevotingsystem that these guys nowstudy!

Llull/Copeland Rule For FIFA World Championships or UEFA European Championships: Simply use = 1/3 as the tie value. Difference between the LlullandtheCopeland rule? What happens if the head-to-head contest ends with a tie? Llull: Both get 1 point Copeland0: Both get 0 points Copeland0.5: Both get half a point Copeland: Both get  points, for a rational , 0<<1

Voting Systems Round-based: Single Transferable Vote (STV) v1: > > > v2: > > > v3: > > > v4: > > >

Voting Systems Round-based: Single Transferable Vote (STV) v1: > > v2: > > v3: > > v4: > >

Voting Systems Round-based: Single Transferable Vote (STV) v1: v2: v3: v4:

Voting Systems Level-based: BucklinVoting (BV) v1: > > > v2: > > > v3: > > > v4: > > > v5: > > > • 5 voters => strictmajoritythresholdis 3

Voting Systems Level-based: BucklinVoting (BV) v1: > > > v2: > > > v3: > > > v4: > > > Level 2 Bucklin v5: > > > winners: • 5 voters => strictmajoritythresholdis 3

Voting Systems Level-based: FallbackVoting (FV) • combines AV and BV Candidates: v: { , } | { , } v: > | { , } • Bucklinwinnersarefallbackwinners. • IfnoBucklinwinnerexists (due todisapprovals), thenapprovalwinnerswin.

War on ElectoralControl AV winners: "chair": knows all preferences

War on ElectoralControl AV winner: "chair": knows all preferences andcanchangethestructure of an election

War on ElectoralControl AV winner: "chair": knows all preferences andcanchangethestructure Other typesofcontrol: of an election • adding/partitioningvoters • deleting/adding/partitioningcandidates

NP-HardnessShields forControl Resistance = NP-hardness,Vulnerability = P, Immunity, andSusceptibility

NP-HardnessShields forControl

References: Control • J. Bartholdi, C. Tovey, and M. Trick: HowHard isittoControl an Election?Mathematicaland Computer Modelling, 1992. • E. Hemaspaandra , L. Hemaspaandra, and J. Rothe: Anyone but Him: The ComplexityofPrecluding an Alternative. ArtificialIntelligence, 2007. (AAAI-2005) • P. Faliszewski, E. Hemaspaandra , L. Hemaspaandra, and J. Rothe: Llulland Copeland VotingComputationallyResistBriberyandConstructiveControl. Journal ofArtificialIntelligence Research, 2009.(AAAI-2007; AAIM-2008) • G. Erdélyi, M. Nowak, and J. Rothe: SP-AV FullyResistsConstructiveControlandBroadlyResistsDestructiveControl. MathematicalLogic Quarterly, 2009. (MFCS-2008) • G. ErdélyiandJ. Rothe: ControlComplexity in FallbackVoting. Proceedingsof CATS-2010. • G. Erdélyi, L. Piras, and J. Rothe: The ComplexityofVoter Partition in BucklinandFallbackVoting: SolvingThree Open Problems. ProceedingsofAAMAS-2011.

War on Manipulation I like Spock but I don‘twanthimtobethecaptain!! Copeland : winner v1: > > > v3: > > > v2: > > > v4: > > > assumption: .v4knowstheother voters‘ votes v4 lies tomakehis mostpreferred candidatewin

War on Manipulation I like Spock but I don‘twanthimtobethecaptain!! Copeland : winners v1: > > > v3: > > > v2: > > > v4: > > > Here: unweightedvoters, singlemanipulator . Other types: - coalitionalmanipulation - weightedvoters

NP-Hardness Shields for Manipulation Results due toConitzer, Sandholm, Lang (J.ACM 2007)

Single-Peaked Preferences • A collection V ofvotesissaidtobesingle-peakedifthereexists a linear order L over C such thateachvoter‘s „degreeofpreference“ risesto a peakandthen falls (or just risesor just falls). A voter‘s preference curve on galactic taxes lowgalactictaxes high galactictaxes

Single-Peaked Preferences • A collection V ofvotesissaidtobesingle-peakedifthereexists a linear order L over C such thateachvoter‘s „degreeofpreference“ risesto a peakandthen falls (or just risesor just falls). A voter‘s > > > preference curve on galactic taxes lowgalactictaxes high galactictaxes Single-peakedpreferenceconsistentwith linear orderofcandidates

Single-PeakedPreferences • A collection V ofvotesissaidtobesingle-peakedifthereexists a linear order L over C such thateachvoter‘s „degreeofpreference“ risesto a peakandthen falls (or just risesor just falls). A voter‘s > > > preference curve on galactic taxes lowgalactictaxes high galactictaxes Preference thatisinconsistentwiththis linear orderofcandidates

Single-PeakedPreferences • A collection V ofvotesissaidtobesingle-peakedifthereexists a linear order L over C such thateachvoter‘s „degreeofpreference“ risesto a peakandthen falls (or just risesor just falls). • Ifeachvotevi in V is a linear order >iover C, thismeansthatforeachtripleofcandidates c, d, and e: (c L d L e or e L d L c) impliesthatforeach i, if c >i d then d >i e.

Single-Peaked Preferences • A collection V ofvotesissaidtobesingle-peakedifthereexists a linear order L over C such thateachvoter‘s „degreeofpreference“ risesto a peakandthen falls (or just risesor just falls). • Ifeachvotevi in V is a linear order >iover C, thismeansthatforeachtripleofcandidates c, d, and e: (c L d L e or e L d L c) impliesthatforeach i, if c >i d then d >i e. • Bartholdi & Trick (1986); Escoffier, Lang & Öztürk (2008): Given a collection V of linear ordersover C, in polynomial time wecanproduce a linear order L witnessingV‘s single-peakednessorcandeterminethat V is not single-peaked.

Single-PeakedApprovalVectors • A collection V ofvotesissaidtobesingle-peakedifthereexists a linear order L over C such thateachvoter‘s „degreeofpreference“ risesto a peakandthen falls (or just risesor just falls).

Removing NP-hardnessshields: 3-candidate Borda veto everyscoringprotocolfor -candidate 3-veto, Leavingthem in place: STV (Walsh, AAAI-2007) 4-candidate Borda 5-candidate 3-veto Erecting NP-hardnessshields: Artificialelectionsystemwithapprovalvotes, for size-3-coalition unweightedmanipulation Results due toFaliszewski, Hemaspaandra, Hemaspaandra& Rothe (Information & Computation 2011) ConstructiveCoalitionalWeighted Manipulation General Single-peaked

Removing NP-hardnessshields: Approval Constructivecontrolbyaddingvoters Constructivecontrolbydeletingvoters Plurality constructivecontrolbyaddingcandidates destructivecontrolbyaddingcandidates constructivecontrolbydeletingcandidates destructivecontrolbydeletingcandidates Results due toFaliszewski, Hemaspaandra, Hemaspaandra& Rothe (2011) Brandt, Brill, Hemaspaandra & Hemaspaandra (AAAI 2010)achievedsimilarresults forothervotingsystemsaswell (e.g., forsystemssatisfyingtheweak Condorcet criterion) and also forconstructivecontrolbypartitionofvoters. Controlfor Single-PeakedElectorates General Single-peaked

A Sample Proof Sketch number of approvals from voters in V for candidates that are 1 2 votes in Wthatcanbeadded (with multiplicities) 4 7 3 1 9 5

A Sample Proof Sketch number of approvals from voters in V for candidates that are 1 Whichvotetypesfrom Wshouldweadd? Especiallyiftheyareincomparable? 2 votes in Wthatcanbeadded (with multiplicities) 4 7 3 1 9 5

A Sample Proof Sketch number of approvals from voters in V for candidates that are 1 We‘ll handle this by a „smart greedy“ algorithm. 2 votes in Wthatcanbeadded (with multiplicities) 4 7 3 1 9 5

A Sample Proof Sketch number of approvals from voters in V for candidates that are 1 Whyare F, C, B, c, f, and j dangerous but theremainingcandidatescanbeignored? 2 votes in Wthatcanbeadded (with multiplicities) 4 7 3 1 9 5

A Sample Proof Sketch number of approvals from voters in V for candidates that are 1 First, each added vote will be an interval including p. So drop all others. 2 votes in Wthatcanbeadded (with multiplicities) 4 7 3 1 9 5

A Sample Proof Sketch number of approvals from voters in V for candidates that are 1 First, each added vote will be an interval including p. So drop all others. 2 votes in Wthatcanbeadded (with multiplicities) 4 7 3 1

A Sample Proof Sketch number of approvals from voters in V for candidates that are 1 Now, ifaddingvotesfrom Wcauses p tobeat c then p must also beat a and b. 2 votes in Wthatcanbeadded (with multiplicities) 4 7 3 1

A Sample Proof Sketch number of approvals from voters in V for candidates that are 1 Thus, c is a dangerousrivalfor p but a and b cansafelybeignored. 2 votes in Wthatcanbeadded (with multiplicities) 4 7 3 1

Manipulation and Control for Approval Voting and Other Voting Systems

Manipulation and Control for Approval Voting and Other Voting Systems

Presentation Transcript

Electronic Voting Systems

Electronic Voting Systems

Computational Aspects of Approval Voting and Declared-Strategy Voting

Voting Systems

Voting Systems

Optimal Manipulation of Voting Rules

Voting Systems

Voting systems

Approval Voting :

Approval Voting :

Online Manipulation and Control in Sequential Voting

Arrow’s Conditions and Approval Voting

Voting Systems

Elections and Voting Systems

Electronic Voting Schemes and Other stuff

Arrow’s Conditions and Approval Voting

1.4 Arrow’s Conditions and Approval Voting

Manipulation, Control, and Beyond: Computational Issues in Weighted Voting Games

Voting Systems

VOTING SYSTEMS

Voting systems

Approval Voting :