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J�N��N.��

�� K� I� Aardal� F� Chudak and D� B� Shmoys� �A ��approximation algorithm for the k�level uncapac�itated facility location problem�� Information Processing Letters� ��

�� A� A� Ageev� Improved approximation algorithms for multilevel facility location problems� to appearin Operations Research Letters�

�� V� Arya� N� Garg� R� Khandekar� A� Meyerson� K� Munagala� and V� Pandit� �Local search heuristicsfor k�median and facility location problems�� in� Proceedings of the ��rd ACM Symposium on Theoryof Computing� ACM Press� �� pp� ��

�� A� F� Bumb and W� Kern� �A simple dual ascent algorithm for the multilevel facility location prob�lem�� in� Proceedings of the �th International Workshop on Approximation Algorithms for Combi�natorial Optimization Problems �APPROX�� Lecture Notes in Computer Science� Vol� �� Springer� Berlin� pp� ��

�� M� Charikar and S� Guha� �Improved combinatorial algorithms for facility location and k�medianproblems�� in� Proceedings of the ��th Annual IEEE Symposium on Foundations of Computer Sci�ence� IEEE Computer Society� pp� ��

�� M� Charikar� S� Guha� E� Tardos� and D� B� Shmoys� A constant�factor approximation algorithmfor the k�median problem� in Proceedings of STOC� � ��

�� M� Charikar� S� Khuller� D� Mount� and G� Narasimhan� �Facility location with outliers�� in� Pro�ceedings of the ��th Annual ACM�SIAM Symposium on Discrete Algorithms� Washington DC� pp��

�� F� A� Chudak� �Improved approximation algorithms for uncapacited facility location�� in� Proceed�ings of the �th Integer Programming and Combinatorial Optimization Conference� Lecture Notes inComputer Science� Vol� �� Springer� Berlin� ��

� � F� A� Chudak and D� B Shmoys� �Improved approximation algorithms for the uncapacitated facilitylocation problem�� unpublished manuscript ��

�� F� A� Chudak and D� B Shmoys� Improved approximation algorithms for the capacitated facilitylocation problem� in Proceedings of SODA� � � �

�� F� A� Chudak and D� P� Williamson� Improved approximation algorithms for capacitated facilitylocation problems� in Proceedings of IPCO� ��

��

�� S� Guha and S� Khuller� �Greedy strikes back� Improved facility location algorithms�� J of Algo�rithms� ��

�� S� Guha� A� Meyerson� and K� Munagala� Improved algorithms for fault tolerant facility location� inProceedings of SODA��

�� K� Jain and V� V� Vazirani� �Primal�dual approximation algorithms for metric facility locationand k� median problems�� in� Proceedings of the ��th Annual IEEE Symposium on Foundations ofComputer Science� IEEE Computer Society� � � pp� ��

�� K� Jain� M� Mahdian� and A� Saberi� �A new greedy approach for facility location problems�� toappear in Proceedings of the ��th ACM Symposium on Theory of Computing Montreal� Quebec�Canada� May � ��

�� M� R� Korupolu� C� G� Plaxton� and R� Rajaraman� �Analysis of a local search heuristic for fa�cility location problems�� in� Proceedings of the th Annual ACM�SIAM Symposium on DiscreteAlgorithms �SODA�� ACM Press� � �� pp� ��

�� J��H� Lin and J� S� Vitter� Approximations algorithms for geometric median problems� Inform� Proc�Lett� ��

�� J��H� Lin and J� S� Vitter� ��approximations with minimum packing constraint violation� in Pro�ceeedings of STOC� ��

�� M� Mahdian� E� Markakis� A� Saberi� and V� Vazirani� A greedy facility location algorithm analyzedusing dual �tting� to appear in Combinatorica�

�� M� Mahdian� Y� Ye� and J� Zhang� �A ��approximation algorithm for the uncapacitated facilitylocation problem�� manuscript ��http��www�math�mit�edu��mahdian�floc��ps

�� M� Pal� E� Tardos� and T� Wexler� Facility Location with nonuniform hard capacities� in Proceedingsof FOCS��

�� D� Shmoys� E� Tardos� and K�I� Aardal� �Approximation algorithms for facility location problems��in� Proceedings of the �th Annual ACM Symposium on the Theory of Computing �STOC ��ACM Press� � �� pp� ��

�� M� Sviridenko� �An ��approximation algorithm for the metric uncapacitated facility locationproblem�� to appear in Proceedings of the th Conference on Integer Programming and Combina�torial Optimization� May �� Cambridge� MA� ��

�� M� Thorup� �Quick k�median� k�center� and facility location for sparse graphs�� in� Automata Lan�guages and Programming ��th International Colloquium �ICALP�� Lecture Notes in ComputerScience� Vol� ��

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EVOLUTIONARY ALGORITHMS IN DISCRETE OPTIMISATION

Anton V% Eremeev* Colin R% Reeves*

Evolutionary algorithms @EAsAIan umbrella term for techniques such as genetic al?gorithms @GAsA* genetic programming @GPA and evolution strategies @ESAIhave becomepopular tools for attacking discrete optimisation problems* and there are many exper?imental papers that bear witness to the fact that they can be very e�ective% GAs inparticular have been extensively used in OR @see G�H for a reviewA* and have been thesubject of some extravagant claims about their abilities to avoid local optima% However*theoretical developments have lagged some way behind* and it is the purpose of this paperto discuss some of what is known about their behaviour from a theoretical perspective%Much of this material is ampliVed in G��H%

De=nitions and some general results$ Consider a maximisation problem: Vnd f� Cmaxff@xA : x � Xg where X is a Vnite solutions space% The minimisation problem wouldbe treated analogously @the necessary changes are usually obviousA%

Let �t C @xt�� xt�� x

tNA � XN be the population of solutions in the EA on iteration

t and let b� � X denote the set of all solutions present in population �% Usually theordering of solutions in population is unimportant but the same solution may be presentin several copies% The population �t�� is produced on the basis of �t using the followingfour randomised procedures%

The selection operator s : XN XN �

chooses N � copies of solutions called �parents�from the current population* i%e% �� C @x�� x

�N �A C s @�tA is such that c�� c�t%

The reproduction operator � : XN �

XN ��

introduces some random changes to the�parents�* producing N �� solutions called �o�spring� in population �� C @x�� x

��N ��A%

The survival operator � : XN � XN ��

XN determines which solutions from thepopulation �t and from the �o�spring� will be combined in �t��* thus b� @�t��A � c�tc��%

In practice the selection and survival operators are designed to �favour� the solutionsof better quality @greater objective function values in the case of maximisation problemA%This may be done deterministically @e%g% in survival operators of the @�� A?ES and @�E�A?ES evolution strategies G��*��HA or randomly @e%g% in proportional or tournament selectionin genetic algorithms G��*�HA%

The EA starts with some randomly generated initial population and proceeds byiterating the random mapping �t�� C � @� @s @�tAA ��tA until some termination conditionis met% Such condition could be a limit on the number of total iterations* or a limit onthe number of iterations without an improvement of the objective function value ft Cmaxi�N f@xtiA of the �best� solution in �

t* or a requirement for ft to reach a su�cient

IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII<Anton Valentinovich Eremeev* Omsk Branch of Sobolev Institute of Mathematics*�=* Pevtsov str%* Omsk* ��* Russia*phone: E� @=��A �=��=�* fax: E� @=��A �=��* e?mail: eremeevLiitam%omsk%net%ru

Colin Richard Reeves* School of Mathematical � Information Sciences*Coventry University* UK*Priory Street* Coventry CV� FB* UK*phone: �� * fax: �� * e?mail: C%ReevesLcoventry%ac%uk

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level% For convenience when talking about the theoretical analysis we will assume thatthe termination condition is never met* although practical experience shows that multipleindependent restarts often yield a signiVcant improvement in the performance of EAs%

As an example of EA let us consider the simple genetic algorithm G��H which hasbeen intensively studied and exploited over three decades% This algorithm operates withpopulations of binary strings @traditionally called genotypesA thus we will assume X Cf�� gn ignoring the issues of representation of other types of solution spaces < the detailscan be found e%g% in G�H% Here the intermediate populations �� and �� also consist of Nsolutions and N is even% In selection operator each element of �parent� population s @�tAis drawn from �t independently of other elements with probability distribution assigningeach solution xti a probability proportional to f@xtiA* and often instead of the originalobjective function a composition of f with some monotonic function is helpful%

The reproduction operator consists here of crossover and mutation stages% In crossoverstage random substrings are exchanged between sequential pairs of �parent� genotypesfrom �� with constant crossover probability pc and an intermediate population @z�� zNAis formed so that Pfz�k�� C x��k�� z�k C x��kg C �� pc� and

Pfz�k�� C @x��k�� x��k��j� x

��k�j�� x

��k�nA�

z�k C @x��k�� x��k�j� x

��k��j�� x

��k��nAg C pc�@n� �A

for all k C �� N�� j C �� n� �% After that in mutation stage each bit in z�� zNis �ipped with a constant mutation probability pm* which is usually chosen su�cient?ly small% Thus the random output of reproduction operator �� C � @��A is such thatPfx��ij C �� zijg C pm* Pfx��ij C zijg C � � pm* i C �� N * j C �� n� The survivaloperator is trivial: � @�t��A C �� and the initial population �� is constructed randomlyso that Pfx�ij C �g C Pfx�ij C �g C �� and all these bits are chosen independently%

The following result due to A% Eiben* E% Aarts and K% van Hee @see e%g% G��HA gives arelatively mild su�cient condition for convergence of the EA to an optimum% Let randomvariable t� denote the Vrst population number such that ft� C f�%

Proposition # Let the operators of EA be such that Pfx � bs @�Ag � � for any � �XN � x � b�� and Pfx � b� @��Ag � � for any � � XN �� XN ��

� x � c��# Suppose alsothat for every x � X there exists a sequence y�� y�� yk of solutions such that y� C x�f@ykA C f� and for all i C �� k � � if yi � c�� then Pfyi�� b� @��Ag � �#

Then for any initial population Pf�t : t� � tg C �� and if the survival operator issuch that for any �� holds maxff@xA : x � b� @��Ag C maxff@xA : x � b� c��g thenft

t�� f� with probability Z#

Application of Prop%� to the simple GA shows that there the optimal solution is foundalmost surely in Vnite number of iterations but to guarantee that Pfft

t�� f�g C � the

survival operator needs to be changed @keeping the best solution from �t would su�ceA%The properties ensured by Prop%� are deVnitely desirable for the EAs; however* it says

nothing about the speed of convergence to the optimum* which is crucial since the trivialcomplete enumeration method is also known to Vnd the optimum in a Vnite number ofiterations% Therefore it is important to consider the expected hitting time of an optimumEGt�H and the closely related probability Pft� � tg for Vnite values of t @see e%g% G��HA%

Unfortunately* for the class of NP ?hard problems* EAs with polynomally boundedEGt�H are unlikely to exist: for the EAs and other randomised algorithms the following�folklore� result @see e%g% GHA can be derived from the deVnitions available in G=*�=H%

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Proposition ' Let Popt be an NP �hard NP optimisation problem and the approximationof Popt within a factor r is NP �hard# If NP �� BPP � then for any polynomial h@�A norandomised algorithm solves all instances x of Popt in polynomial time with probabilitygreater than ��h@jxjA� where jxj is the length of input x#

Note that the relation between classes NP and BPP is one of the open questions incomplexity theory% The conjecture NP �� BPP is widely believed to be true* and it isalso equivalent to conjecture NP �C RP G��H%

Evolutionary algorithms for speci=c problems$ In view of Prop%� it is naturalthat the polynomial upper bounds on the expected optimisation time are only knownfor the EAs applied to polynomially solvable problem classes* e%g% some cases of thepseudo?Boolean functions G��*��*��H* some families of the set cover G�H and the knapsackG��H problems etc% Several classes of these problems with exponential upper and lowerbounds on EGt�H may be found in G��*��*��H as well% An instructive example of problemsfamily where the usage of crossover in GA provably decreases EGt�H from exponential topolynomial is suggested by T%Jansen and I%Wegener @see e%g% G��HA%

A number of randomised algorithms successfully used in complexity theory may also beconsidered as very simple instances of the EAs with multiple restarts* e%g% the algorithmof C% Papadimitriou with quadratic expected running time for the �?SAT problem @seeG�=HA and the algorithm of U% Schxoning for the k?SAT problem G��H @the later algorithmhas an exponential upper bound on expected complexityA% A new interesting approachto the analysis of EAs is based on rapidly mixing Markov chains associated with someEAs: in case in stationary distribution the probability that �t contains an optimum isnon?negligible* the fast convergence of such chains allows to Vnd an optimum e�cientlyand with high probability G��H%

Another promising approach is aimed at the analysis of average?case complexity ofthe EAs given a probability distribution on the set of problem inputs% An example ofsuch analysis is the minimum graph bisection problem with random graphs drawn fromthe so?called �planted bisection� model for which it has been theoretically shown G�H thatthere is little di�erence between the simple evolutionary algorithm @�E�A?ES and the moresophisticated EAs such as the Metropolis algorithm* and a problem?speciVc heuristic G�H%

Often the EAs are used in situations where the information on quantitative parametersof the input problem @except for its dimensionalityA is accessible only through evaluationsof objective function in the sample points% This raises the issue of evaluation and compar?ison of di�erent algorithms in such a �black box optimisation� scenario* which is currentlybeing intensively studied @see e%g% G��*��HA%

Dynamical system model and the local optima structure$ Several workers @seee%g% G�HA have pointed out that in the GA on Boolean solutions space X C f�� gn mutationis strongly connected to the local optima structure deVned by Hamming distance: thee�ect of mutation at typical rates is that the Hamming distance between �o�spring�and �parents� is usually �; in some cases a distance of � will occur fairly frequently*but normally the probability of a greater distance is very small% However* the e�ect ofcrossover is markedly di�erent: the o�spring generated by crossover may be a long wayfrom their parents in terms of Hamming distance% Nevertheless* while there are exceptions*functions that are easy for local search with a Hamming distance neighbourhood are

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generally fairly easy for GAs with crossover* while the converse often also seems to betrue% The question remains as to why this is the case%

The last few years have seen signiVcant progress in developing and understanding aformal model of simple GA and its generalisations as a dynamical system G��H @for brevitythe simple GA is called GA in what followsA% This work is highly important in its ownright* but it turns out that the behaviour of the dynamical systems model is closely relatedto the local optima structure of the problem for binary search spaces%

In this model* a population vector p is introduced which has length jXj and is onewhose k?th component is the proportion of the population � consisting of the solution yk �X� k C �� jXj�� @numbered in some standard orderA% Given the current population �t

with population vector pt a functionG@ptA produces a vector inRjXj whose k?th componentis the probability that the solution yk will be found in population �t��%

The result of M%Vose G��H shows that as N �* with probability converging to �* thesequence of population vectors p�� p�� pt converges to the sequence p�� G@p�A� �� Gt@p�Afor any Vnite t% In this connection it is helpful to consider the inVnite?population GAbecause on each iteration of such a GA the vector pt�� is a deterministic function G@ptAof the current population vector%

It turns out that the Vxed points of G* i%e% such population vectors p that p C G@pAare crucial in analysis of GA% It should be remarked that for a crossover?only GA @i%e%assuming pm C �A* potentially every solution corresponds to a Vxed point: just start theprocess in a uniform population with multiple copies of the same solution and it will staythere% However* not all Vxed points are stable* in the sense that a small perturbation willstart the population on a trajectory that will ultimately lead away from it%

The stability status of a particular Vxed point p for the inVnite?population GA canbe determined by looking at the eigenvalues associated with the di�erential of G at thatpoint @see e%g% G�=HA% If all these eigenvalues are in the interior of unit disk* p is calledstable% Such stable points are attractors in the sense that from almost all initial populationvectors p� the inVnite?population GA converges to one of them G��H%

In G�=H M%Vose and A%Wright conjecture that in the case of crossover?only inVnite?population GAs all Vxed points are uniform population vectors* i%e% a single componenthas the value � and all others are zero% The attractors are really populations* but if theVose?Wright conjecture holds* they are uniform populations* so we can identify them withindividual solutions% This ampliVes the importance of the following result linking the GAattractors and the local optima structure where the local optimum is a solution that doesnot have a neighbour with greater objective function value in Hamming distance �%

Proposition , G�=H For a crossover�only in>nite�population GA� each uniform attractorconsists of multiple copies of some local optimum in a Hamming distance Z neighbourhood#

In other words* the number of @Hamming distance �A local optima is an upper boundon the number of attractors% In principle* in a GA with mutation the attractors willnot coincide exactly with those in the crossover?only GA* but the argument given in G�=Hshows that these Vxed points are fundamental to GA performance even when mutation isincluded%

While Prop%= gives some comfort to arguments of the type �we should use GAs becausethey avoid local optima�* the comfort is small% One of the authors of this paper has shownthat it is rather �di�cult� for a Hamming local optimumnot to be a GA attractor too G��H%

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Experimental analysis has also revealed that there is a strong identity between attractorsand local optima* but other questions remain unanswered: for example* is there anyrelationship between properties of a basin of attraction of an attractor in the dynamicalsystems model and those of a basin in the Hamming neighbourhood structure� Do theeigenvalues of an attractor convey any information about basin size�

Discussion$ The present state?of?the?art in analysis of the EAs is characterised by alarge gap between the modest set of provable results and the rich encouraging experi?mental data% Most of the theoretical Vndings are limited in applicability either due totheir abstractness or due to the narrow speciVcation to a particular family of problems%This situation is gradually improving yet there is a need for intermediate kind of studiesrigorously explaining the reasons of success or failure of a particular type of the EAs ona particular set of non?trivial problems and justifying the usage of certain procedures forit% Such analysis might involve further elaboration of theoretical bounding techniqueslike those in G�**�*��*��*��H as well as development of methodology for measurement ofproblems di�culty for EAs in terms of quickly computable characteristics @see e%g% G�*�HA%

Acknowledgment This research was supported in part by a grant from the RoyalSociety%

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% Cong J%* Kahng A%* and Robins G% Matching based methods for high�performanceclock routing# TT IEEE Trans% on Computer?Aided Design of Integrated Circuitsand Systems% V% ��% N �% P% ��?��%

�% Erzin A% I% Min�skew clock tree detailed routing# TT P8/'(��/(�� (M�(?� � �� (61 �(�, 9 ��,/��( �� 1�% P�� ,6 ��(M�(� %�� 5 ��: �9/?�� (�� '�� 2��2�� % ��% �% ��%

�% Erzin A% I%* Cho J%D% The signal synchronization problem in VLSI design# TT Proc%of �th Int% Conf% on Information Networks* Systems and Technologies% Minsk:BSEU% ��% P% �=�?�=%

� ��

ON THE APPROXIMATION TRADEOFF FOR MULTICRITERIASCHEDULING PROBLEMS

A% Kononov

Abstract

We consider multiobjective scheduling problems$ i�e� scheduling problems thatare evaluated with respect to many cost criteria$ and we are interested in determin!ing a trade!o% between these criteria�

First$ we identify a class of multiobjective optimization problems possessing a ful!ly polynomial time approximation scheme �FPTAS� for computing an �!approximatePareto curve� We show how our general result can be applied to two types of bicri!teria scheduling problems& single�machine batching problems and parallel machine

scheduling problems�Second$ we study the problem of simultaneously minimizing the makespan

and the average weighted completion time for the precedence multiprocessor con!strained scheduling problem with unit execution times and unit communicationsdelays� We propose a simple �� !approximation algorithm for the problemwith an unrestricted number of machines� We improve our algorithm by adapt!ing a technique 'rst introduced by Aslam et al� �� and provide a ��"� ��"�!approximate solution� For the considered scheduling problem we prove the existenceof a ��"� ��"�!approximate solution$ improving the generic existence result of��

Introduction

Motivated by the practical interest of multicriteria problems* and taking advantageof the latest advances in @single?criteriaA approximation theory G��H* more and more re?searchers in Theoretical Computer Science are interested in the construction of polynomialtime approximation algorithms* with guaranteed performance ratios* for many multicrite?ria combinatorial optimization problems G�* ��* �* ��* ��H% The most popular approach inTheoretical Computer Science is the budget approach @optimization of one criterion givena Vxed value for a second criterionA and there is a long series of polynomial time approxi?mation algorithms following it G��* ��* ��H% A second approach is interested in obtaining atradeo� @Pareto curveA between the optimality criteria G�* �* �* ��H% The recent FOCS pa?per by Papadimitriou and Yannakakis G�H showed the possibility of approximating withinany desired accuracy the Pareto curve for a large class of problems% In the third approachwe try to obtain results about the quality that might be obtained simultaneously for thevarious optimality criteria G�* ��* ��H% A series of recent Vndings G�* ��* ��H have intro?duced techniques and methods for the analysis* from an approximation point of view* ofvarious bicriteria scheduling problems% In order to evaluate the worst?case performanceof an algorithm for a bicriteria optimization problem* the following deVnition has beenintroduced in G��H: an @�� A?approximation algorithm produces a solution that* in the

IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII<Kononov Alexander Veniaminovich* Sobolev Institute of Mathematics*pr% Academica Koptyuga �* Novosibirsk* �=��* Russia*phone: @�?=�=?�A ==?��?��* fax: @�?=�=?�A ==?�?��* e?mail: alvenkoLmath%nsc%ru

��

worst case* is within � of optimal for the Vrst criterion @e%g% the makespanA and ofoptimal for the second criterion @e%g% the average weighted completion timeA%

#$ FPTAS for bicreteria batching and parallel machine scheduling problems

Most of the works in the scheduling literature* related to the notion of Pareto curve*study the problem of computing the exact @or the convex hull of theA Pareto curve andgive complexity results* or propose polynomial @if possibleA* or exact @e%g% branch andboundA algorithms G�* ��H% However* recently there has been much progress in the Veldof multiobjective optimization G�H* and it has been shown that it is often possible tocompute an approximate Pareto curve in polynomial time% Informally* an �?Pareto curveis a set of solutions that dominates all other solutions approximately @within a factor� E �A in all the objectives%

In the Veld of scheduling* some recent results consider the notion of approximatePareto curve% Cheng et al proposed polynomial time algorithms for the computationof the approximate Pareto curve for a single machine bicriterion @resource consumptionand a regular criterionA scheduling problem with resource dependent processing times GH%More recently* Angel et al studied the problem of scheduling independent tasks on a setof unrelated parallel machines with two optimality criteria @makespan and costA* and theyproposed a polynomial time algorithm for computing the approximate Pareto curve G�H%

In this paper* we study two types of bicriteria scheduling problems: single�machinebatching problems and parallel machine scheduling problems% Batching problems aremotivated by the problem of scheduling burn?in operations for large scale integratedmanufacturing G��H% A batching machine is a machine that can process simultaneously upto b jobs* and the jobs that are processed simultaneously form a batch% Note that if b C �then the model is the same as the classical single machine scheduling model%

In the unbounded burn�in model* that we consider in what follows* the processing timeof a batch is equal to the maximum processing time of any job assigned to it* and b isgreater than or equal to n* where n is the number of independent jobs to be scheduled% Ofcourse* themakespan minimization problem is trivially solved by assigning all the jobs to aunique batch% In G=H* a characterization of a class of optimal schedules for the unboundedburn�in model and for regular scheduling criteria has been given* leading to a genericdynamic programming formulation minimizing a regular criterion in pseudo?polynomialtime% In addition speciVc dynamic programs have been proposed for speciVc optimalitycriteria @weighted sum of completion times* maximum cost* maximum latenessA%

Up to our knowledge* no results are known for the burn?in model in the case of multipleoptimality criteria% We show that the problem of computing the exact Pareto curve whentwo speciVc criteria @makespan and sum of completion timesA are considered is NP?hard*and we give an FPTAS for computing an approximate Pareto curve which is as close aspossible to the exact Pareto curve for the more general bicriterion problem @makespanand weighted sum of completion timesA%

In the past few years* there have been signiVcant developments in the area of approx?imation algorithms for NP ?hard parallel machine scheduling problems* see e#g# G�H% Weare given n independent jobs that have to be executed on m machines @processorsA% Themachines can be identical @the processing time of each job is the same on any machineA*uniform @each machine has a di�erent speed and the processing time of each job is pro?portional to the speed of the corresponding machineA or unrelated @the processing times

� ��

of the jobs are machine?dependentA% The jobs must be processed without interruption*and each machine can execute at most one job at a time% There is a lot of objectivesthat have been studied in this context% In almost all cases the corresponding single cri?teria problems are NP?hard% Here* we focus on parallel identical machines and we studydi�erent bicriteria scheduling problems involving various scheduling criteria @makespan*weighted sum of completion times* sum of squared completion times* etcA% We show thatit is possible to construct in polynomial time an approximate Pareto curve whenever thenumber of machines is a constant% Our results can be easily generalized to the case of aconstant number of uniform machines%

Instead of proceeding in a problem?by?problem basis* we identify a class of multiob?jective optimization problems possessing an FPTAS% This class contains a set of problemswhose Pareto curve can be obtained via a simple @pseudo?polynomialA dynamic programfor which the objective and transition functions satisfy some* easy to verify* arithmeticalconditions% In order to obtain this characterization* we extend some results that Woeg?inger obtained for single?criteria ex�benevolent optimization problems G�=H% Notice that asa corollary of a result by Papadimitriou and Yannakakis G�H* we know that for multiob?jective discrete optimization problems with linear objectives* the existence of a dynamicprogram computing the Pareto curve in pseudo?polynomial time* implies an FPTAS forcomputing the approximate Pareto curve within any accuracy% We illustrate this methodfor the bicriterion problem @makespan* weighted sum of completion timesA of schedulinga set of independent jobs on a constant number of identical machines% Our approachallows us to go further and characterize multiobjective problems with non�linear optimal?ity criteria* or problems for which it is not obvious to prove the linearity of the criteria%Furthermore* we study and give a characterization for a stronger version of approximatePareto curves* the @�� A?Pareto curve% Informally* we search for a set of solutions thatdominates all other solutions approximately @within a factor �E�A in all but one objectives*and it is optimal with respect to the last objective%

'$ Approximation algorithms for bicriteria scheduling problems withcommunication delays

Stein and Wein G��H proposed an elegant way of proving the existence of scheduleswhich are good approximations for makespan and average weighted completion time for alarge class of scheduling problems @preemptive scheduling problems* scheduling of tasks onunrelated machines* scheduling in the presence of precedence constraints* etc%A% Aslam etal% G�H improved these existence results providing improved bounds on the existence of suchschedules by introducing a relation between average weighted schedules* appropriatelynormalized* with continuous probability density functions% More recently* Rasala et al%G��H generalized these results that apply to several scheduling settings and to all pairsof optimality criteria in which the Vrst is one among maximum =ow time* makespan* ormaximum lateness* and the second is one among average =ow time* average completiontime* or number of on�time tasks% They also proposed lower bounds about the existence ofgood bicriteria approximation schedules for these pairs of metrics% Apart of its theoreticalinterest* the approach used in order to obtain the existence results of G�* ��* ��H* can beused to obtain good bicriteria approximation algorithms in a very natural way: Given anx?approximation algorithm for metric A and a y?approximation algorithm for metric B*then an existence result of an @�� A?approximation for metrics A and B @obtained using

��

the constructions of �� shows that we can obtain easily an �x� �y�approximationfor criteria A and B� This very general method provides good bicriteria approximationalgorithms for numerous scheduling environments and pairs of metrics� but of course bydisregarding the special structure of each particular problem� it lacks on giving the bestpair of approximation ratios� In particular� in the case of the scheduling problem withcommunication delays that we consider in what follows� the obtained ratios are not betterthan the trivial �� approximate solution that can be obtained by simply putting onecommunication between every pair of communicating tasks�It is then necessary� to study these problems in a problembyproblem basis in order

to be able to exploit the special structure and properties of each problem� In this paper�we focus on a classical scheduling problem� the UETUCT problem and two importantmetrics� the makespan and the average weighted completion time� and we show that itis possible to combine the techniques of �� with linear programming in order toget a �� approximation algorithm for the problem with an unbounded numberof machines� Using the notation of �� this problem can be denoted as P�jprec cij �� pi � �jCmax�

PwjCj�� We wish to �nd a feasible schedule� that is simultaneously

within a small factor strictly less than �� of optimal for both optimality criteria�The corresponding monocriteria problems have been studied in the literature ��

�� and have been proved to be NPhard �� Furthermore� Hoogeveen et al�showed that there is no hope in �nding an approximation algorithm for P�jprec cij �� pi � �jCmax with relative performance strictly less than �� unless P � NP� ��The best known approximation algorithm is due to K�onig and Munier with a worstcaserelative performance equal to �� The algorithm and the analysis are quite elegantbased on ILPrelaxation and rounding� The performance ratio of �� was achieved forthe makespanminimization problem� but it is quite simple to be adapted also for theaverage weighted completion time criterion� This is because K�onig and Munier were ableto show that the completion time of every task after rounding is bounded above by ��the lower bound obtained by the solution of the ILPrelaxation where the makespanobjective function is replaced by

Pj wjCj��

In what follows� we propose a new scheduling algorithm based on an ILPrelaxationand the techniques introduced by �� that improves the trivial bound of �� The principle of our algorithm is based on the resolution of two ILPrelaxations� onefor each criterion� the appropriate application of the combine procedure of �� on theobtained not necessarily feasible� solutions of the LPs and a simple rounding step� Bya careful analysis� we are able to prove that the constructed schedule is a �� approximation algorithm� criterion� Using the relation between average weighted schedules� appropriately normalized� with continuous probability density functions� we are ableto improve this result and to obtain a �� approximation algorithm� Furthermore� we obtain improved existence results for our problem showing the existence of�� approximation for makespan and average weighted completion time� In thelast part of the paper� we consider the same bicriterion problem when a restricted numberof processors is available� For the makespan problem� Hanen and Munier �� have proposeda ��

�m�approximation algorithm this result holds for the more general problem withsmall communication delays�� while for the average weighted completion time criterionM�ohring et al� proposed a ��

�m�approximation algorithm for the UETUCT problemin fact� for the more general problem with �� communication delays�� Here� we givea �

��

��

��

��

��

�� approximat ion algorithm� where � � ��

�� In the

��

following table� we summarize the main obtained vs� the known results for the consideredscheduling problems�

P�jprec cij � � pi � �jCmax P�jprec cij � � pi � �jPwjCj

�� P jprec cij � � pi � �jCmax P jprec cij � � pi � �jPwjCj

�� P�jprec cij � � pi � �jCmax�

PwjCj�

Existence Upper bound�� this paper �� this paper

� � �� e�

�e�� e�

�e��

��

��

��

� � ��

P jprec cij � � pi � �jCmax�PwjCj�

Upper bound this paper��

��

��

��

��

��

� � ��

The main contribution of this paper is to provide further evidence that the generaltechniques introduced in �� mainly for obtaining bounds on the existence of goodbicriteria algorithms� may be combined with linear programming and rounding in orderto obtain a new way of designing e�cient bicriteria approximation algorithms�Review of jointly papers with Evripidis Bampis and Eric Angel in LaMI� CNRS UMR

�� Universit�e d�Evry Val d�Essonne� France�

REFERENCES

�� E� Angel� E� Bampis and A� Kononov A FPTAS for approximating the unrelatedparallel machines scheduling problem with costs� Proc� ESA��

�� J� Aslam� A� Rasala� C� Stein and N� Young Improved bicriteria existence theoremsfor scheduling� Proc� SODA��

�� P� Brucker and A� Gladky and H� Hoogeveen and M�Y� Kovalyov and C� Potts andT� Tautenhahn and S� van de Velde� Scheduling a batching machine� Journal ofscheduling� ��

�� B� Chen� C�N� Potts� and G�J� Woeginger� A review of machine scheduling� complex�ity� algorithms and approximability� Technical Report Woe�� TU Graz� ��

�� T�C�E� Cheng and A� Janiak and M�Y� Kovalyov� Bicriterion single machine schedul�ing with resource dependent processing times� SIAM J� on Optimization� ��

�� P� Chr�etienne� E�J� Co�man Jr� J�K� Lenstra� and Z� Liu� Scheduling Theory and itsApplications� Wiley� ��

�� R�L� Graham� E�L� Lawler� J�K� Lenstra� and A�H�G� Rinnooy Kan� Optimizationand approximation in deterministic sequencing and scheduling theory� a survey� Ann�Discrete Math��

��

�� C� Hanen and D�S� A� Munier� An approximation algorithm for scheduling depen�dent tasks on m processors with small communication delays� IEEE Symposium onEmerging Technologies and Factory Automation� September ��

�� J�A� Hoogeveen� Single Machine Bicriteria Scheduling� PhD Thesis CWI� ��

�� J�A� Hoogeveen� J�K� Lenstra� and B� Veltman� Three� four� �ve� six� or the com�plexity of scheduling with communication delays� O� R� Lett��

�� K� Jansen and L� Porkolab� Improved approximation schemes for scheduling unrelatedparallel machines� Proc� STOC� ��

�� C�Y� Lee and R� Uzsoy and L�A� MartinVega� E�cient algorithms for schedulingsemiconductor burn�in operations� Operations Research� ��

�� R�H� M�ohring� M�W� Sch�after� A�S� Schulz� Schedulig jobs with communicationdelays � using infeasible solutions for approximation� Proceedings of the FourthEuropean Symposium on Algorithms� Lecture Notes in Computer Science� ��SpringerVerlag� ��

�� A� Munier and J�C� K�onig� A heuristic for a scheduling problem with communicationdelays� Operations Research� ��

�� C�H� Papadimitriou and M� Yannakakis On the approximability of trade�o�s andoptimal access of web sources� Proc� FOCS��

�� C� Picouleau� �Etude des probl�emes d�optimisation dans les syst�emes distribu�es� PhDthesis� Universit�e de Paris VI� ��

�� A� Rasala� C� Stein� E� Torng� and P� Uthaisombut Existence theorems� lower boundsand algorithms for scheduling to meet two objectives� Proc� SODA� ��

�� D�B� Shmoys and �E� Tardos� An approximation algorithm for the generalized assign�ment problem� Mathematical Programming A� ��

�� C� Stein and J� Wein On the existence of schedules that are near�optimal for bothmakespan and total weighted completion time� Operations Research Letters� ��

�� M�A� Trick� Scheduling multiple variable�speed machines� �st Conference of IntegerProgramming and Combinatorial Optimization� ��

�� V� T�Kindt and J�C� Billaut� Multicriteria scheduling problems� a survey� RAIROOperations Research� ��

�� V� Vazirani� Approximation Algorithms� Springer� ��

�� G�J� Woeginger� When does a dynamic programming formulation guarantee the ex�istence of an FPTAS Electronic Colloquium on Computational Complexity� ��

��

ON RAMSEY NUMBERS OF SPARSE GRAPHS AND HYPERGRAPHS

A� V� Kostochka

This talk is based on joint works with V� R�odl and B� Sudakov�For graphs G�� Gk� de�ne the Ramsey number RG�� Gk� to be the minimum

positive integer N such that in every kcoloring of edges of the complete graph KN � forsome i there is a copy of Gi all whose edges are colored by color i� The classical Ramseynumber rk� l� is in our terminology RKk�Kl��Call a family F of graphs Ramsey linear if there exists a constant C � CF� such

that for every G � F �RG�G� � CjV G�j�

For dense graphs G� rG� is known to be exponential in the order of G� For example�in the extreme case when G is the complete graph of order n we have �n�� rG� � ��n�Therefore to be Ramsey linear a family should contain relatively sparse graphs�Burr and Erd�os �� conjectured that for every d�

a� the family of graphs with maximum degree at most d is Ramsey linear b� the family Dd of ddegenerate graphs is Ramsey linear�Recall that a graph is ddegenerate if every its subgraph has a vertex of degree in

this subgraph� at most d� Another way to state the second conjecture is to say that forevery �xed k� the family of graphs without subgraphs of average degree greater then k isRamsey linear�The �rst conjecture was proved by Chv�atal� R�odl� Szemer�edi� and Trotter �� The

Cd� in their proof grows with d very rapidly�The second conjecture which is much stronger� is still wide open� In recent years�

some subfamilies of the family Dd were shown to be linear Ramsey�LetWd denote the family of graphs in which the vertices of degree greater than d form

an independent set� Alon �� proved that W� is linear Ramsey�A graph G is called parrangeable� if there exists an ordering v�� vn of its vertices

with the following property� for every i� � � i � n� the number of vj with j � i havinga common neighbor vs for some s � i with vi is less than p� Let Ad denote the family ofdarrangeable graphs� Observe that Ad � Dd for d � �� On the other hand� A�� containsall planar graphs and Ap� contains all graphs with no Kpsubdivisions see �� Chen andSchelp �� proved that Ad is linear Ramsey for every d�A d� n�crown is the bipartite graph Gd� n� � U�W E� where U � f�� ng�

W � fS � U j jSj � dg� and fi� Sg � E i� i � S� Trotter asked if the family Cd �fGd� n� j n � d� d�� d�� g is linear Ramsey� Kostochka and R�odl �� answered thisquestion in the positive�An alternative approach to the conjecture is to prove weaker than linear bounds on

Ramsey numbers of all ddegenerate graphs� It was started in ��

��Kostochka Aleksandr Vasilievich�Institute of Mathematics� Siberian Branch of the RAS�Novosibirsk�� Russiaand Dept of Mathematics� University of Illinois at UrbanaChampaign�Urbana� IL �� USA�email� kostochk�math�uiuc�edu

��

Theorem � �� Let C � Cd� � ��d��d��d Then for every d�degenerate graphs G�

and G� on n vertices�RG�� G�� Cn G��

Corollary � �� Let C � Cd� � ��d��d��d Then for every d�degenerate graph G�

RG�G� � CjV G�j G� � CjV G�j��

This corollary provides that even if Dd were not Ramsey linear� it is at least !Ramseypolynomial"�

For a pair d� n� of positive integers with n � d� we say that a graphH is d� n��commonif for every d vertices v�� vd � V H� there are at least n vertices of H adjacent toall vi� � � i � d� Since the vertices of every ddegenerate graph can be ordered in sucha way that every vertex has at most d neighbors !on the left of it"� each ddegenerategraph can be embedded into each d� n�common graph� In view of this� if we can embedany d� n�common graph into a graph H� then we can embed in H every ddegenerategraph� R�odl was the �rst to understand the importance of the notion of a d� n�commongraph�Let Fdn� denote the minimum positive integer N� such that for every N � N� and

every graph H on N vertices� either H or its complement H contains a d� n�commonsubgraph� By the above� good upper bounds on Fdn� would imply good upper boundson the maximum of RG�G� over all ddegenerate graphs with n vertices� In particular�if Fdn� is linear� then Dd is Ramsey linear� Thus the following question was consideredin ��

Question � Is it true that for every positive integer d� there exists a constant C � Cd�such that Fdn� � Cn

The following polynomial bound on Fdn� was proved�

Theorem � For every positive integer d� there exists a positive constant C � Cd� suchthat for every graph H on N vertices� either H or H contains a subgraph G possessingd� n��property� where n � N��d

C

Recently� Kostochka and Sudakov �� proved that Fdn� is not far from linear�

Theorem � �� For every � � � there exists n� � n�� such that for every n � n� andevery positive integer d � ��

pln lnn�

Fdn� � n��

By the above� this implies the following bound on Ramsey numbers of ddegenerategraphs�

Corollary � For every � � � there exists n� � n�� such that for every n � n� andevery positive integer d � ��

pln lnn� the Ramsey number of every d�degenerate graph of

order n is at most n��

For bipartite graphs� we have the following Turan type result�

��

Theorem �� Let � � c � � be a constant and let d� N and n be positive integerssatisfying

d � ��lnn and N � n

��ec

��d�� ln�� n� ��

Then every bipartite graph G � V�� V� E� with jV�j � jV�j � N and jEj � cN� containsa d� n��quasi�common graph H � U�� U� E��

Note that d is allowed to grow slowly� with n� In particular� it follows from theabove theorem that the Ramsey number rG�G� of each ddegenerate bipartite graphG of order n is still n�o�� even when d is as large as lnn�wn�� where wn� tends toin�nity arbitrarily slowly together with n� This bound is nearly tight� For example� ifd � � log� n then the random coloring of Kn�� where the color of every edge is chosenindependently with probability �� does not contain monochromaticKd�d� Therefore theRamsey number of Kd�d is at least n��Observe also that the upper bounds easily generalize to more colors�

Theorem � �� Let d and a be integer�valued functions of n such that d ln� a � oln n�Then for every family of bipartite d�degenerate graphs G�� Ga of order n� the Ramseynumber rG�� Ga� is n�o��

On the other hand� we answer Question � in the negative� even for d � � the functionFdn� is superlinear�

Theorem �� There exists a real c � � such that for every integer n there exists a

graph H of order cn ln�� n

ln lnnwith the property that neither H nor its complement contains

a �� n��common subgraph� ie�

F�n� � cn ln�� nln lnn

�

This does not disprove the Burr�Erd�os conjecture but puts a shadow on it�

The analogs of the two Burr�Erd�os conjectures were stated also for runiform hypergraphs� And in this case even the conjecture for maximum degree is wide open evenfor �uniform hypergraphs� Very recently� Kostochka and R�odl obtained the followingapproximation to the maximum degree conjecture�

Theorem �� For every positive integers r � � and and real � � � � �� there exists aconstant C � Cr� � �� such that

RG�G� � C n��

for every r�uniform hypergraph G on n vertices with maximum degree at most

The work of this author was supported by the grants �� and �� of theRussian Foundation for Fundamental Research�

��

REFERENCES

�� N� Alon� �� Subdivided graphs have linear Ramsey numbers� J� GraphTheory �� No� ��

�� S� A� Burr and P� Erd�os� �� On the magnitude of generalized Ramsey numbersfor graphs� in� !In�nite and �nite sets"� Vol�� Colloquia Mathematica Soc� JanosBolyai� �� NorthHolland� AmsterdamLondon� ��

�� G� Chen and R� H� Schelp� �� Graphs with linearly bounded Ramsey numbers�J� Comb� Theory� Ser� B ��

�� C� Chvatal� V� R�odl� E� Szemer�edi� and W� T� Trotter� ��The Ramseynumber of a graph with bounded maximum degree� J� Comb� Theory� Ser� B ��

�� A� Kostochka and V� R�odl� �� On graphs with small Ramsey numbers� J�Graph Theory ��

�� A� V� Kostochka and V� R�odl� On graphs with small Ramsey numbers II� submitted�

�� A� V� Kostochka and B� Sudakov� On Ramsey numbers of sparse graphs� submitted�

�� V� R�odl and R� Thomas� �� Arrangeability and clique subdivisions� in� !TheMathematics of Paul Erd�os" R� Graham and J� Ne#set#ril Eds�� Springer� Berlin�Vol� ��

��

$%&'()*'+)*,% -&./0.1%**,% 203'&.)4,$ 5.+6&%)*'7 '-).4.829..

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-=@X[\]\@^_` {=\^{>| }~;}= ?@{}^}=�� =@;:[�^\^}� �} �@=}`^?}_^?�� =>~[>�@??�� \[]}=>^�\� X[` ;\X\� X>_{=@^?}| }�^>�>;\�>>� $�>X: ~}[��}]} {}[>�@_^�\ =@;:[�^\^}� X[` ;\X\� ^\{}]} =}X\ �� }]=\?>�>�\@�_` ?@_{}[�{>�> {[\__>�@_{>�> ;\X\�\�>� $} �?}]>� _[:�\`� �=}]=@__ X}_^>]\@^_` ~[\]}X\=` _[@X:<�@|}~�@| _�@�@�� =\__�\^=>�\@�\` ;\X\�\ �@=@�}=�:[>=:@^_` � �>X@ �@[}�>_[@??}| �=}]=\��

[>?@|?}| >[> ?@[>?@|?}|� �� ?\�}X>^_` =@�@?>@ @@ [>?@|?}| >[> ?@[>?@|?}|� =@[\{_\�>> �� >_�}[�;:@^_` �@=}`^?}_^?}@ }{=:][@?>@ �}[:�@??}]} ?@�@[}�>_[@??}]} =@�@

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�� Adamowicz M�� Albano A� A Solution of the rectangular cutting�stock problem IFEFTransactions on Systems� Man and Cybernetics� �� P� �� Bischo� E�� Wascher G�� edit� Special issue� Cutting and Packing European Journalof Operational Research� �� Blazewicz J�� Hawryluk P�� Walkowiak R� Using a tabu search approach for solvingthe two�dimensional irregular cutting problem Annals of OR� �� P�� Co�man E�� Garey M�� Jchonson D� Approximation algorithms for bin�packing�anupdated survey Algorithm Design for Computer System Design Ausiello G�� LucertiniM�� Sera�ni P� eds� Berlin etal� �� Dousland K�A�� Dousland W�B� Packing problems European Journal of OperationalResearch� �� P�� Dykho� H�� Wascher G�� edit� Special issue� Cutting and Packing European Journalof Operational Research� �� Dykho� H� A typology of cutting and packing problems F�R�Germany� �� Ferreira C�� Miyazawa F�� Wakabayashi Y� Packing Squares into squares� PesquisaOperational� �� P�� Falkenauer E� A hybrid Grouping Genetic Algorithm for Bin Packing Journal ofHeuristics� �� P� �� Forster H�� Wascher G� Simulated annealing for order spread minimization sequencingcutting patterns European Journal of Operational Research� �� P� �� Garey M�R�� Johnson D�S� Computers and Intractability� A guide to the Theory ofNP� Completeness SanFrancisco� Freemau� �� Gehring H�� Bortfeld A� A Genetic Algorithm for Solving the Container Loading Prob�lem International transactions in operational research� �� V�� P�� Gilmore P�� Gomory R� Multistage cutting stock problem of two and more dimensionsOperat� Res� �� P�� Gupta J�� Jeganathan S�� White C� The Cutting Stock Problems with a Given Sequenceof Order Lengths Pesquisa Operational� �� P�� Heckman R�� Lengauer T� Computing closely matching upper and lower bounds ontextile nesting problems European Journal of Operational Research� �� P�� Hi� M� The DH_KD algorithm� a hybrid for unconstrained two�dimensional cuttingproblems European Journal of Operational Research� �� P�� Hinxman A� The Trim�Loss and Assortment Problems� A Survey European Journalof Operational Research� �� P�� Hochbaum editor� Approximation algorithms for NP�hard problems PWC� �� Jahonson M�P�� Rennick C�� Zak E� One�Dimensional Cutting Stock Problem in Justin Time Environment Pesquisa Operational� �� P�� Lirov Y�� edit� Special issue� Geometric Resource Allocation Mathematical andComputer Modelling� �� Liu D�� Teng H� An improved BL�algorithm for genetic algorithm of the orthogonalpacking of rectangles European Journal of Operation Research� �� P� �� a� Martello S�� edit� Special issue� Knapsack� Packing and Cutting� Part I� OneDimensional Knapsack Problem INFOR� �� b� Martello S�� edit� Special issue� Knapsack� Packing and Cutting� Part II� Multi�dimensional Knapsack and Cutting Stock Problems INFOR� �� Martello S�� Toth P� Knapsack problems� Algorithms and Computer Implementations

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YOHN WILEY�SONS� Chichester� �� Martello S�� Vigo D� Exact solution of two�dimensional �nite bin packing problemManagement Science� �� P�� Martynov V� Geometrical Objects Regular Placement onto a Stock Sheet or StripPesquisa Operacional� �� P�� Milenkovic V�Y� Translation Polygon Containment and Minimal Enclosure usingMathematical Programming Based Restriction Proceeding of the �� ACM Symposiumon the theory of Computing STOC� �� P� �� Morabito M� Arenales M� Staged and constrained two�dimensional guillotine cuttingproblems� an and_or�graph approach European Journal of Operational Research� �� P�� Mukhacheva E�� edit� Special issue� Decasion Making under Conditions of Uncer�tainty 4Cutting�Packing Problems5 The International Scienti�c Collection� �� Ufa�Russia�� Mukhacheva E�A�� Belov G�N�� Kartak V�M�� Mukhacheva A�S� Linear one� dimen�sional cutting�packing problems� numerical experiments with sequential value correctionmethod 4SVC5 and a modi�ed branch�and�bound method 4MBB5 Pesquisa Operacional�� P�� Nitsche C�� Scheithauer G�� Terno J� Tighter relaxations for the cutting stock prob�lems Europen J� Oper� Res� �� P� �� Ribeiro C�� Carravilla M�� Oliveira J� Applying Constraint Logic Programming to theResolution of Nesting Problems Pesquisa Operational� �� P�� Scheithauer G�� Terno Y� Muller A�� Belov G� Solving one�dimensional cutting stockproblems exactly with a cutting plane algorithm Technical Report MATHNM��TU Dresden�� Scholl A�� Klein R�� Juergens G� BISON� A fast hybrid procedure for exactly solvingthe one�dimensional Bin�Packing Problem Computers and Operational Research� �� P� �� Schwerin P�� Wascher G� A New Lower Bound for the Bin�Packing Problem and itsintegration to MTP Pesquisa Operational� �� P�� Soma N�� Toth P� On the Critical Item for Subset Sum Problems Pesquisa Operacional� �� P�� Stoyan Yu�� Novozhilova M� Non�guillotine Placement of Rectangles into a Strip ofGiven Width Pesquisa Operational� �� Stoyan Yu�� Pankratov A� Regular packing of congruent polygons on the rectangularsheet European Journal of Operational Research� �� P� �� Schwerin P�� Wascher G� The Bin�Packing Problem� a Problem Generator and SomeNumerical Experiments with FFD Packing and MTP International Transactions in Operational Research� �� P�� Terno J�� Lindeman R�� Scheithauer G� Zuschnitprobleme und ihre prakti� scheLosung� Leiprig� �� Valeeva A�� Agliullin M� Using Ant Colony Algorithm for the �D Bin�Packing Prob�lem Pracedings of the �rd International Workshop CSIT�� Ufa� �� P�� Yanasse H�� edit� Special issue� Cutting and Packing Problems Pesquisa Operacional�� Wang P�� Valenzeva L� Data set generation for rectangular placement problems European Journal of Operational Research� �� P��

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�� Andreev A�� Baskakov Ju�� Clementi A�� Rolim J� Small pseudo�random sets yieldhard functions� New tight explicit lower bounds for branching programs �� LectureNotes in Comput� Sci� V� �� Berlin� Springer� �� P� ��

�� Babai L�� Pudl�ak P�� R�odl V�� and Szemer�edi M� Lower bounds to the complexityof symmetric Boolean functions �� Theoretical Computer Science� �� V� ��P� ��

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�� Barrington D� A� M� Bounded�width polynomial�size branching programs recognizeexactly those languages in NC� �� J� Comput� and System Sci� �� V� ��P� �� &:__{>| �@=@�}X� /\==>?]^}? 5� 2� 4� [��!K��! ��&/��""#&/��%�.�%%&3 1��%#� �"�8K�� & �%&"�� )%+8 � &-%&��)� ��&(%�8� ��&.%&�� !(#�� ( NC� �� 6>~@=?@^>�@_{>| _~}=?>{� �� $�� +� ��

�� Borodin A�� Razborov A�� Smolensky R�On lower bounds for read�k�times branchingprograms �� Computational Complexity� �� V� �� No� �� P� ��

�� Bryant R�E� Graph�based algorithms for Boolean function manipulation �� IEEETrans� on Computers� �� V� C�� P� ��

�� La�erty J�� Vardy A� Ordered binary decision diagrams and minimal trellises ��IEEE Transaction on Computers� �� V� �� No� �� P� ��

�� Lee C�Y� Representation of switching circuits by binary�decision programs �� BellSystem Techn� J� �� V� �� P� �� &:__{>| �@=@�}X� 0> 6� >��'�� %�� 8.�� )%#6 �6�" � �&"&K)8 ��&/��"" '�&�.%&/& ��1�%�! �� $}�=}_� ^@}=>> �\^@�\^>�@_{>� �\�>?� 4�� 4\�>?}_^=}@?>@� �� +� ��

�� Okol�nishnikova E�A� On the hierarchy of nondeterministic branching k�programs�� Lecture Notes in Comput� Sci� V� �� Berlin� Springer� �� P� ��

�� Pudl�ak P� A lower bound on complexity of branching programs �� Lecture Notes inComput� Sci� V� �� Berlin� Springer� �� P� ��

�� Pudl�ak P� The hierarchy of Boolean circuits �� Comput� Arti�cial Intelligence�� V� �� No� �� P� ��

�� Razborov A� A� Lower bounds for deterministic and nondeterministic branchingprograms �� Lecture Notes in Comput� Sci� V� �� Berlin� Springer� ��P� ��

�� Sauerho� M� Complexity Theoretical Results for Randomized Branching Programs�� Ph� D� Universit�at Dortmund� Dortmund� ��

�� Sauerho� M�� Wegener I�� and Werchner R� Relating branching program size andformula size over the full binary basis �� Lecture Notes in Comput� Sci� V� ��Berlin� Springer� �� P� ��

�� Thathachar J� S� On separating the read�k�times program hierarchy �� Proc� of the��th Ann� ACM symp� on theory of compting� New York� ACM Press� ��P� ��

�� Wegener I� The complexity of Boolean functions� Stuttgart� B� G� Teubner Chichester� John Wiley�Sons� ��

�� Wegener I� Branching programs and binary decision diagrams Theory and applica�tions� Philadelphia� PA� SIAM� ��

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�� *�8��}= *2 &'%&" � �� &,�%&� / &2� )%&/& "�%�"+"� �& �%�"�� )%#6 7+%��,�3 6>~@=?@^>{\� N�� __��

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�� F�A�AlKhayyal� J�E�Falk Jointly constrained biconvex programming Mathematicsof Operations Research� �� pp� ��

�� I�Bomze� G�Danniger A Finite Algorithm for Solving General Quadratic Problems Journal of Global Optimization� vol�� N�� pp��

�� Y� Nesterov� A�Nemirovskii Interior�Point Polynomial Algorithms in ConvexProgramming SIAM Studies in Applied Mathematics� vol�� p��

�� B�T�Polyak Convexity of Quadratic Transformations and Its Use in Control andOptimization Journal of Optimization Theory and Applications� vol�� N�� pp��

�� C�A�Floudas� V�Visweswaran Quadratic Optimization in Handbook of GlobalOptimization� Kluwer Academic Publishers� pp��

�� J�B�HiriartUrruty Conditions for Global Optimality � Journal of GlobalOptimization� vol� �� N�� pp��

�� R�Horst� P�Pardalos� H�Tuy Introduction to Global Optimization Kluwer AcademicPublishers� Dordrecht� ��

�� H�D�Sherali� C�H�Tuncbilek A Reformulation�Convexi�cation Approach for SolvingNonconvex Quadratic Programming Problems Journal of Global Optimization�vol�� N�� pp��

�� H�Wolkowicz Semide�nite and Lagrangian Relaxations for Hard CombinatorialProblems in System Modelling and Optimization� Methods� Theory andApplications� edited by M�J�D�Powell� S�Sholtes� pp� ��

�� Y�Ye On a�ne scaling algorithms for nonconvex quadratic programmingMathematical Programming� vol�� N�� pp��

��

THE VARIABLE NEIGHBORHOOD SEARCHMETAHEURISTIC AND ITS USES

Pierre Hansen and Nenad Mladenovi�c

�� INTRODUCTION

Variable neighborhood search VNS� is a recent metaheuristic for solving combinatorialand global optimization problems whose basic idea is systematic change of neighborhoodwithin a local search� In this paper we present basic rules of VNS and some of its extensions� Moreover� applications are brie¢y summarized� They comprise heuristic solutionof a variety of optimization problems� ways to accelerate exact algorithms and to analyzeheuristic solution processes� as well as computerassisted discovery of conjectures in graphtheory�An optimization problem may be formulated as follows�

minffx�jx � X�X � Sg� ��

S�X� x and f are solution space� feasible set� feasible solution and real valued function�respectively� If S is a �nite but large set a combinatorial optimization problem is de�ned�If S � Rn� we talk about continuous optimization� Most optimization problems are NPhard and heuristic suboptimal� solution methods are needed to solve them at least forlarge instances or as an initial solution for some exact procedure��Metaheuristics� or general frameworks for building heuristics to solve problem ��

are usually based upon a basic idea� or analogy� Then� they are developed� extended invarious directions and possibly hybridised� The resulting heuristics often get complicated�and use many parameters� This may enhance their e�ciency but obscures the reasons oftheir success�Variable Neighborhood Search VNS for short�� a metaheuristic proposed just a few

years ago �� is based upon a simple principle� systematic change of neighborhood withinthe search� Its development has been rapid� with several dozen papers already publishedor to appear� Many extensions have been made� mainly to allow solution of large probleminstances� In most of them� an e�ort has been made to keep the simplicity of the basicscheme�In this paper� we survey these developments� The basic rules of VNS methods are

recalled in the next section� Extensions are considered in Section � and issues in devisinga VNS heuristic in Section ��

��Pierre Hansen and Nenad Mladenovi�cGERAD and Ecole des Hautes Etudes Commerciales�� ch� de la CoteSainteCatherine� Montr�eal H�T �A�� Canadatel� �� fax� �� email� pierreh�crt�umontreal�ca

��

�� BASIC SCHEMES

Let us denote with Nk� k � �� kmax�� a �nite set of preselected neighborhoodstructures� and with Nkx� the set of solutions in the kth neighborhood of x� Most localsearch heuristics use only one neighborhood structure� i�e�� kmax � �� NeighborhoodsNk may be induced from one or more metric or quasimetric� functions introduced intoa solution space S� An optimal solution xopt or global minimum� is a feasible solutionwhere a minimum of �� is reached� We call x� � X a local minimum of �� with respectto Nk w�r�t� Nk for short�� if there is no solution x � Nkx�� X such that fx� � fx��Metaheuristics based on local search procedures� try to continue the search by othermeans after �nding the �rst local minimum� VNS is based on three simple facts�� A local minimum w�r�t� one neighborhood structure is not necessary so with

another �� A global minimum is a local minimum w�r�t� all possible neighborhood structures�� For many problems local minima w�r�t� one or several Nk are relatively close to

each other�This last observation� which is empirical� implies that a local optimum often provides

some information about the global one� This may for instance be several variables withthe same value in both� However� it is usually not known which ones are such� Anorganized study of the neighborhood of this local optimum is therefore in order� until abetter one is found�In order to solve �� by using several neighborhoods� facts � to � can be used in threedi�erent ways� i� deterministic ii� stochastic iii� both deterministic and stochastic�i� The Variable neighborhood descent VND� method is obtained if change of neighborhoods is performed in a deterministic way and its steps are presented on Figure ��

Initialization� Select the set of neighborhood structures N �k � for k � �� k�max� that will be

used in the descent� �nd an initial solution x �or apply the rules to a given x��

Repeat the following sequence until no improvement is obtained�� Set k � �� Repeat the following steps until k � k�max�

�a� Exploration of neighborhood� Find the best neighbor x� of x �x� � N �k�x��

�b� Move or not� If the solution thus obtained x� is better than x� set x � x� andk � �� otherwise� set k � k ��

Figure �� Steps of the basic VND�

Most local search heuristics use in their descents a single or sometimes two neighborhoodsk�max � �� Note that the �nal solution should be a local minimum w�r�t� all k�max

neighborhoods� and thus chances to reach a global one are larger than by using a singlestructure� Beside this sequential order of neighborhood structures in VND above� one candevelop a nested strategy� Assume e�g� that k�max � � then a possible nested strategy is�perform VND from Figure � for the �rst two neighborhoods� in each point x� that belongsto the third x� � N�x�� Such an approach is applied in �� and ��ii� The Reduced VNS RVNS� method is obtained if random points are selected fromNkx�� without being followed by descent� and its steps are presented on Figure ��

��

Initialization� Select the set of neighborhood structures Nk� for k � �� kmax� that will beused in the search� �nd an initial solution x� choose a stopping condition�

Repeat the following sequence until the stopping condition is met�� Set k � �� Repeat the following steps until k � kmax�

�a� Shaking� Generate a point x� at random from the kth neighborhood of x �x� �Nk�x��b� Move or not� If this point is better than the incumbent� move there �x � x��and continue the search with N� �k � �� otherwise� set k � k ��

Figure �� Steps of the Reduced VNS�

RVNS is useful for very large instances for which local search is costly� It is observed thatthe best value for the parameter kmax is often �� In addition� the maximum number ofiterations between two improvements is usually used as stopping condition� RVNS is akinto a MonteCarlo method� but more systematic see �� where results obtained by RVNSwere ��£ better than those of the MonteCarlo method in solving a continuous minmaxproblem�� When applied to the pMedian problem� RVNS gave equally good solutions asthe Fast Interchange heuristic of �� in �� to �� times less time ��iii� The Basic VNS VNS� method �� combines deterministic and stochastic changesof neighborhood� Its steps are given on Figure ��



�a� Shaking� Generate a point x� at random from the kth neighborhood of x �x� �Nk�x��b� Local search� Apply some local search method with x� as initial solution� denotewith x�� the so obtained local optimum��c� Move or not� If this local optimum is better than the incumbent� move there�x� x�� and continue the search with N� �k � �� otherwise� set k � k ��

Figure �� Steps of the basic VNS�

The stopping condition may be e�g� maximum cpu time allowed� maximumnumber ofiterations� or maximumnumber of iterations between two improvements� Often successiveneighborhoods Nk will be nested� Observe that point x� is generated at random in step �ain order to avoid cycling� which might occur if any deterministic rule was used� Note alsothat the Local search step �b� may be replaced by VND� Using this VNS�VND approachled to the most successful applications recently reported see e�g� ��

�� EXTENSIONS

Several easy ways to extend the basic VNS are now discussed� The basic VNS is adescent� �rst improvement method with randomization� Without much additional e�ortit could be transformed into a descentascent method� in Step �c set also x � x" with

��

some probability even if the solution is worse than the incumbent or best solution foundso far�� It could also be changed into a best improvement method� make a move to thebest neighborhood k� among all kmax of them� Other variants of the basic VNS couldbe to �nd solution x� in Step �a as the best among b a parameter� randomly generatedsolutions from the kth neighborhood� or to introduce kmin and kstep� two parameters thatcontrol the change of neighborhood process� in the previous algorithm instead of k � �set k � kmin and instead of k � k � � set k � k � kstep�While the basic VNS is clearly useful for approximate solution of many combinatorial

and global optimization problems� it remains di�cult or long to solve very large instances�As often� size of problems considered is limited in practice by the tools available to solvethem more than by the needs of potential users of these tools� Hence� improvementsappear to be highly desirable� Moreover� when heuristics are applied to really largeinstances their strengths and weaknesses become clearly apparent� Three improvementsof the basic VNS for solving large instances are now considered�iv� The Variable Neighborhood Decomposition Search VNDS� method �� extends the basic VNS into a twolevel VNS scheme based upon decomposition of the problem� Its steps are presented on Figure ��



�a� Shaking� Generate a point x� at random from the kth neighborhood of x �x� �Nk�x�� in other words� let y be a set of k solution attributes present in x� but not inx �y � x� n x��b� Local search� Find the local optimum in the space of y either by inspection or bysome heuristic� denote the best solution found with y� and with x�� the correspondingsolution in the whole space S �x�� x� n y� � y��c� Move or not� If the solution thus obtained is better than the incumbent� movethere �x� x�� and continue the search with N� �k � �� otherwise� set k � k ��

Figure �� Steps of the basic VNDS�

Note that the only di�erence between the basic VNS and VNDS is in step �b� insteadof applying some local search method in the whole solution space S starting from x� �Nkx�� in VNDS we solve at each iteration a subproblem in some subspace Vk � Nkx�with x� � Vk� When the local search used in this step is also VNS� the twolevel VNSscheme arises�VNDS can be viewed as embedding the classical successive approximation scheme

which has been used in combinatorial optimization at least since the sixties� see e�g�� in the VNS framework� Other simpler applications of this technique� where the sizeof the subproblems to be optimized at the lower level is �xed� are Large neighborhoodsearch �� and POPMUSIC ��v� The Skewed VNS SVNS� method �� a second extension� addresses the problemof exploring valleys far from the incumbent solution� Indeed� once the best solution ina large region has been found it is necessary to go quite far to obtain an improved one�Solutions drawn at random in faraway neighborhoods may di�er substantially from theincumbent and VNS can then degenerate� to some extent� into the Multistart heuristic

��

in which descents are made iteratively from solutions generated at random and which isknown not to be very e�cient�� So some compensation for distance from the incumbentmust be made and a scheme called Skewed VNS is proposed for that purpose� Its stepsare presented in Figure ��

Initialization� Select the set of neighborhood structures Nk� for k � �� kmax� that will beused in the search� �nd an initial solution x and its value f�x�� set xopt � x� fopt � f�x��choose a stopping condition and a parameter value ��

Repeat the following until the stopping condition is met�� Set k � �� Repeat the following steps until k � kmax�

�a�Shaking� Generate a point x� at random from the kth neighborhood of x��b�Local search� Apply some local search method with x� as initial solution� denotewith x�� the so obtained local optimum��c� Improve or not� If f�x�� fopt set fopt � f�x� and xopt � x��d� Move or not� If f�x�� x� x�� f�x� set x � x�� and k � �� otherwise setk � k ��

Figure � Steps of the Skewed VNS�

SVNS makes use of a function �x� x�� to measure distance between the incumbentsolution x and the local optimum found x�� The distance used to de�ne the Nk� as in theabove examples� could be used also for this purpose� The parameter � must be chosen inorder to accept exploring valleys far from x when fx�� is larger than fx� but not toomuch otherwise one will always leave x�� A good value is to be found experimentally ineach case� Moreover� in order to avoid frequent moves from x to a close solution one maytake a large value for � when �x� x�� is small� More sophisticated choices for a function��x� x�� could be made through some learning process�vi� Parallel VNS PVNS� methods are a third extension� Several ways for parallelizingVNS have recently been proposed �� in solving the pMedian problem� In �� threeof them are tested � i� parallelize local search ii� augment the number of solutionsdrawn from the current neighborhood and do local search in parallel from each of themand iii� do the same as ii� but updating the information about the best solution found�The second version gave the best results� It is shown in �� that assigning di�erentneighborhoods to each processor and interrupting their work as soon as an improvedsolution is found gives very good results� best known solutions have been found on severallarge instances taken from TSPLIB �� Three Parallel VNS strategies are also suggestedfor solving the Traveling purchaser problem in ��

�� ISSUES IN DEVISING A VNS HEURISTIC

When using more than one neighborhood structure in the search� the following problemspeci�c questions have to be answered�

i� how many neighborhoods should be used and which�ii� what should be their order in the search�iii� what strategy should be used in changing neighborhoods�

Application of the VNS metaheuristic for solving each particular problem is based onanswers to these questions� In this section we give some suggestions about how to dealwith them�

��

i� Selection of Neighborhood Structures� As mentioned above� neighborhoodstructures� in general� can be induced from di�erent metrics introduced into thesolution space� However� there are easy ways to do so� We next list some possibleselection strategies�

a� Selection of existing heuristics� For many combinatorial problems a few andsometimes many� local search heuristics already exist� They usually di�er onefrom another in their� possibly implicit� de�nition of neighborhood solutions�All we have to do is to make some reasonable selection of such local searchesand apply one after another in the search� This leads to a VND heuristic�

b� Changing parameter4s5 of existing methods� Some local search heuristics aresupplied with parameters that have a great in¢uence on the size of the neighborhood� In other words� the cardinality of the complete neighborhood canbe a function of parameters whose values are estimated before each run of thecode� Instead of �xing them in advance we can systematically change theirvalues within reasonable limits�� In that way� for each parameter value thedi�erent solutions in the vicinity of the current one are generated� This simple VNS scheme has been used for solving Traveling salesman problem in ��where the socalled GENIUS local search �� has been modi�ed�

c� Use of k�interchange moves� The easiest and probably the most natural wayto generate neighborhoods is by using kinterchange moves� In �� problemsthis corresponds to the Hamming distance if the solution of a problem isrepresented by a set� then this move is de�ned by the symmetric di�erencemetric� and so on� For example� wellknown moves that belong to this class arekopt� kreallocation� krelocation� ksubstitution� etc� This approach has beenused in solving the Traveling salesman �� the pMedian �� the Weightedmaximum satis�ability �� the Bilinear Programming �� the MultisourceWeber �� and the Minimum sumofsquares clustering �� problems�

d� Breaking up neighborhoods� A natural neighborhood can be split into severalsmaller ones� in order to set in a quicker way easy to obtain improvements� Forinstance� when applying the �opt move in the Traveling Salesman Problem�edges considered for introduction in the tour may �rst be limited to the ��£�then ��£ and so on of smallest ones�

ii� Ordering Neighborhoods� In VND� a natural ordering of the neighborhoods isfrom smallest to largest� i�e�� jN�x�j � jN�x�j � � � � � jNkmaxx�j in order to �ndquickly the most obvious improvements� In VNS� a natural ordering correspondsto increasing distance between the current point x and points xk that belong toNkx�� k � �� kmax� When using the kinterchange selection rule� the followingproperty holds as well� jN�x�j � jN�x�j � � � � � jNkmaxx�j when kmax is muchsmaller than the size of x�

iii� Selection in the Neighborhood� Visiting all solutions from large neighborhoodswould produce a non e�ective algorithm� Hence� some Vkx� � Nkx� should begenerated at random� where sk � jVkx�j are VNS parameters� Setting sk � � forall k � �� kmax� the basic VNS is obtained� Alternatively� some selection criteriacan be used to de�ne Vkx� as e�g� considering the �ve best moves and chosing at

��

random between them� This strategy called low�VNS did not give good results forWeighted MaximumSatis�ability when used alone� but was a very useful componentof skewed VNS for that problem ��

iv� Search Strategies� Two search strategies are usual in local searches� best improvement and �rst improvement� Note that the decision about search strategy in VNSshould be made at two levels� �rst� when the neighborhood is changed and second�when di�erent solutions in the same neighborhood are visited� Thus� there are fourpossible options� Note that the basic VNS uses a �rst improvement strategy atthe �rst decision level� while VND often uses a best improvement strategy at thesecond decision level��

v� Descent and Descent�ascent VNS� If there is no improvement� the decisionhas to be made whether or not to accept an ascent move when the neighborhoodand�or solution in the same neighborhood are changed� Thus� four possibilitiesagain occur� descent� descent� descent� descent�ascent� descent�ascent� descent� and descent�ascent� descent�ascent�� For example� the choice of descent� descent�ascent� means that a move will not be made in VNS if the solution obtained bydescentascent local search is not better than the incumbent� The basic VNS uses thedescent� descent� option� Skewed VNS uses the descent�ascent� descent� options�

vi� Forward and Backward VNS� When a �rst improvement search strategy ischosen� the order in which the neighborhhods Nk will be used can play an importantrole in the quality of the �nal solution obtained� An order of the Nk nondecreasingin k de�nes Forward VNS it starts with k �� when there is no improvement inNkx�� k �� k � �� and if a better solution is found� k �� again� A nonincreasingorder of Nk in k de�nes Backward VNS� start with k �� kmax� set k �� k � � incase of unsuccessful search and k �� kmax again in the case of success� Forwardand Backward VNS are special cases of an extended version� introduce kmin andkstep� two parameters that control the change of neighborhood process� i�e�� in theprevious algorithm instead of k � � set k � kmin and instead of k � k � � setk � k � kstep if kstep � �� backward VNS is obtained� Clearly� basic VNS useskmin � kstep � �� Also� one may go from a backward VNS� at the outset when nogood solution is yet found� to a forward VNS when a presumably nearoptimal localoptimum has been detected�

vii� Intensi7cation and Diversi7cation� Usual questions in local search heuristicsare how to intensify the search in some attractive areas Intensi�cation� and how to�nd some previously unexplored regions Diversi�cation� �� It is easy to see thatboth these functions can be achieved in a natural way by changing VNS parameterskmax� kmin� kstep� sk� etc�� and choosing di�erent search strategies and optionsdescribed above�

In fact� the basic VNS scheme with kinterchange moves has imbedded intensi�cation and diversi�cation strategies� one �rst explores thoroughly small close neighborhoods until they give no further improvements� then one proceeds to furtherlarger neighborhoods which are more lightly explored�

��

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�� C� Ribeiro and C�Souza� Variable neighborhood descent for the degreeconstrainedminimum spanning tree problem� to appear in Discrete Applied Mathematics� ��

�� P�Shaw� Using constraint programming and local search methods to solve vehiclerouting problems� In Principles and practice of constraint programming CP��

�� E� Taillard and S� Voss� POPMUSIC Partial optimization metaheuristicunder special intensi�cation conditions� C� Ribeiro� P� Hansen eds�� Es�says and surveys in metaheuristics� pp� �� Kluwer Academic Publishers�Boston�Dordrecht�London� ��

�� R� Whittaker� A fast algorithm for the greedy interchange for largescale clusteringand median location problems� INFOR ��

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ON GENERALIZATIONS OF AVOIDABILITY

S� V� Avgustinovich� D� G� Fon�Der�Flaass� A� E� Frid

A word is said to avoid n�th powers if it does not contain subwords of the formx � � � x� �z �

n

� where x is a non�empty word� It is well�known that there exist in�nite words on

the ��letter alphabet avoiding cubes �i� e�� rd powers� and in�nite words on the ��letteralphabet avoiding squares �i� e�� nd powers�� These classical results formed the basis ofthe theory of avoiding patterns� those are words on the alphabet of variables �� For othergeneralizations� see references in ��

We state the general problem as follows� Given a function f on the set of �nite wordsto an arbitrary set� we say that a word avoids n�th f �powers if it does not contain wordsof the form x� � � � xn� where xi are non�empty words and f�x�� f�xn�� For whichf and n there exist in�nite words on �nite alphabets avoiding n�th f �powers�

One of the natural functions of a word is its weight w� Given the set of weights ofsymbols of the alphabet� we de�ne the weight of a word u � u� � � � un� where ui aresymbols� as w�u� �

Pni��w�ui��

Theorem �� Let the weights of all symbols of a �nite alphabet be arbitrary non�negativeintegers� Then all in�nite words on this alphabet contain arbitrarily large w�powers�

Of course� if weights of symbols are irrational and mutually rationally independent�then avoiding w�powers is equivalent to avoiding abelian powers �see � for the de�nitionand the history of the problem��

Theorem �� Let a function f take a �nite number of values on the set of words of a �nitealphabet� Then all in�nite words on this alphabet contain arbitrarily large f �powers�

The proof of Theorem � involves a reference to the Van der Waerden theorem� andthe proof of Theorem � involves a reference to the Ramsey theorem� Both theorems showthat no non�trivial avoidability theory can be built for the respective classes of functions�But the next theorem gives a more optimistic example�

Let the function f be of the form f�u� � �juj� f ��u�� where juj is the length of a wordu and f ��u� takes only a �nite number of values�

Theorem �� There exist functions f� and f� of the form described above such that thereexist an in�nite word on the ��letter alphabet avoiding f��cubes and an in�nite word onthe ��letter alphabet avoiding f��squares�

Supported in part by RFBR grants � �� and grant no� � of �thcontest of research projects of RAS young scientists ��

REFERENCES

�� S� V� Avgustinovich� A� E� Frid �� Words avoiding abelian inclusions� J� Automata�Languages and Combinatorics� to appear�� J� Cassaigne �� Unavoidable patterns� In� M� Lothaire� Algebraic Combinatoricson Words� Cambridge University Press� to appear��Sergei V� Avgustinovich� Dmitri G� Fon�Der�Flaass� Anna E� Frid�Sobolev Institute of Mathematics�pr� Academica Koptyuga� �� Novosibirsk� �� Russia�phone� �� e�mail� favgust��aass�fridg�math�nsc�ru�

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PALINDROMES IN ROTE SEQUENCES

A� E� Frid

A palindrome is a word of the form a�a� � � � an� where ai � an�i�� for all i� like in words�� or noon� The palindrome complexity is the function of an in�nite word counting thenumber of palindromes of a given length occuring in it� It was studied e� g� in �� whereit was proved in particular that if the number of all words occuring in an in�nite wordgrows linearly� then the palindrome complexity of this word is bounded by a constant�We generalize another result of that paper by counting the arithmetical complexity ofso�called Rote sequences� They are de�ned in � as sequences w � w�w�w� � � � wn � � �generated as follows�

wn �

� � if �c� n�� mod � � � �� if �c� n�� mod � � ��

Here c� � and � are real numbers� � � � �� min�� is irrational�The construction is shown below� we write a each time when the line y � c � �x

meets an integer vertical line in a blank region and a � when it meets a vertical line in ashadowed region�

Such sequences on the alphabet f � �g for all c� � and � are known to contain exactly�n words of each length n� We prove that for each length� exactly two of these wordsare palindromes� and show how to �nd them� So� the palindrome complexity of suchsequences is a constant function equal to �� This generalizes a result of � where the caseof � � �� was considered�

Supported in part by RFBR grants � �� and �� and federal programm�Integratsiya��

REFERENCES

�� J��P� Allouche� M� Baake� J� Cassaigne� D� Damanik �� Palindrome complexity�Theoret� Comp� Sci�� to appear�� G� Rote �� Sequences with subword complexity �n� J� Number Th� � � ��

��Anna E� Frid� Sobolev Institute of Mathematics�pr� Academica Koptyuga �� Novosibirsk� �� Russia�phone� �� fax� �� e�mail� frid�math�nsc�ru

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GRAPH INVARIANTS OF REGULAR COVERINGS

Elena Konstantinova� Jin Ho Kwak� Shao�Fei Du

One of the problem in the topological graph theory is to compare a graph invariantof a graph G with that of a covering of G �� A graph �G is called covering of G with theprojection p � �G� G if there is a surjection p � V � �G�� V �G� such that pjN��v� � N��v��N�v� is a bijection for all vertex v � V �G� and �v � p��v� �here N��v� and N�v� are thesets of vertices adjacent to v and �v�� A covering p � �G� G is said to be regular if there isa subgroup A of the automorphism group Aut� �G� of �G acting freely on �G such that �G�Ais isomorphic to G� In fact� a regular covering of G can be constructed through a voltagemap which is just a set function � from the set of edges of G to a �nite group �� It wasshown � that every regular covering of G arises from some voltage assignment �G�� of G�

We consider graph invariants based on the distances for graphs that are cycles andcomplete graphs and for their regular coverings that are distance�transitive graphs� Theprecise formulas for the vertex and the graph distance� the vertex and the graph eccen�tricity� the radius and the diameter are obtained� For example for a cycle and for thegraph distance D�G� we have

Theorem Let Ck be a k�cycle in a voltage assignment �G�� let the net of voltage��Ck� have order m in � and let p�� Ck� � Cmk be a mk�cycle� Then the followingequality takes place

D�Cmk� �

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m� �D�Ck�� if k is an evenm��D�Ck��k��mk

�� if k is an odd� if m is an odd�

m��D�Ck��k��

� if k is an odd� if m is an even

This research was partially supported by Com�MaC�KOSEF and RFBR �grant ��

REFERENCES

�� Jin Ho Kwak �� Enumeration of Graph Coverings and Their Application� LectureNotes� Com�MaC POSTECH � chapter �� J�L�Gross� Th�W�Tucker �� Generating all graph coverings by permutation voltageassignments� Discrete Math� ��

��Konstantinova Elena Valentinovna� Sobolev Institute of Mathematics�pr� Academica Koptyuga �� Novosibirsk� �� Russia�e�mail�e konsta�math�nsc�ru

Jin Ho Kwak� Combinatorial and Computational Mathematics CenterPohang University of Science and Technology� Pohang �� Republic of Koreae�mail�jinkwak�postech�ac�kr

Shao�Fei Du� Department of Mathematics� Capital Normal University�Beijing � �� People�s Republic of China� e�mail�dushf�mail�cnu�edu�cn

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THE ALGORITHM FOR CONSTRUCTIONOF EULER CYCLES WITH ORDERED ENCLOSING

A� V� Panyukov� T� A� Panioukova

In the papers �� the problem of construction special cycles in �at Euler graph areconsidered� These described cycles are called Euler cycles with ordered enclosing andalgorithms for solution of this problem are o�ered� The given task appears particularlyat constructing the programs for cutting process control� In the terms of cutting processproblem the given graph is a representation of cutting plan� Euler cycle found as solutionis trajectory of the cutting tool movement� the condition ordered enclosing represents therequirement that part cut o� from a sheet does not demand additional slitings�

In the majority of practical tasks cutting plan is �at but not Euler graph� In research� the following theorem is proved�

THEOREM� Let G � �V�E� be a 6at graph on plane S( H � �V�E F � be Eulergraph obtained by addition to graph G some set of edges F � F � S n V � �� Then thereis a Euler cycle C � v�e�v�e� � � � env� for graph H( n � jEj� jF j( for any its initial partCl � v�e�v�e� � � � elvl( L � jEj� jF j the condition Int�Cl� � E � � is ful7lled�

There are some algorithms for construction of such cycles� Some of them have com�puter realization� Computing complexity of algorithms is O�E��

This research was supported by RFBR �Ural� grant �� and Chelyabinskregion Governor�s Contest � ��

REFERENCES

�� Panyukov A� V�� Panioukova T� A� �� Euler Cycles with Ordered Enclosing��The Problems of Theoretical Cybernetics� Thesis of reports� XII InternationalConference �Nizhniy Novgorod� May �� Part II� Moscow� p� �� inRussian�

�� Panioukova T� A� �� Construction of Special Euler Cycles in Flat Graph �� Ma�terials of VII International Seminars �Discrete Mathematics and its Applications��Part II� Moscow� p� �� in Russian�

�� Panyukov A� V�� Panioukova T� A� �� The Algorithm for Tracing of Flat Eu�ler Cycles with Ordered Enclosing �� Proceedings of Chelyabinsk Scienti�c Center�� p�� http��www�sci�urc�ac�ru�news�� pdf

��Panyukov Anatoly Vasilievich� Panioukova Tatiana Anatolievna�Southern Ural State University�Lenin pr�� Chelyabinsk� �� Russia� phone� �� fax� �� e�mail� pav�susu�ac�ru� kwark�mail�ru

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TOWARDS CHARACTERIZATION OF EDGE INTERSECTION GRAPHSOF LINEAR K�UNIFORM HYPERGRAPHS

S� V� Suzdal

The edge intersection graph L�H� of a hypergraph H is de�ned as follows� the verticesof L�H� are in a bijective correspondence with the edges of H� two vertices are adjacent inL�H� if and only if the corresponding edges intersect� A hypergraph is called k�uniformif all its edges have the same cardinality k� In a linear hypergraph� no two edges havetwo vertices in common� Denote by Ll

k the class of edge intersection graphs of lineark�uniform hypergraphs� The class Ll

� �the well�known class of line graphs� have beenstudied for a long time� It was characterized by means of a �nite list F of forbiddeninduced subgraphs �7nite FIS�characterization� �� The situation changes qualitativelyafter taking k � � instead of k � �� It is known that Ll

� has no �nite FIS�characterization�� moreover the recognition problem of Ll

� is NP�complete �� So it is reasonable toinvestigate FIS�characterizations of Ll

k� k � �� in some wide graph classes� The �niteFIS�characterization of Ll

k� k � �� in the class of split graphs is presented in �� Theexistence of such �nite FIS�characterization in the class of �� polar graphs �which isan extension of the class of split graphs� is proved in ��

We prove that there exists a �nite FIS�characterization of Ll� in the class of ��

polar graph� For the class Ll we show that there is no �nite FIS�characterization even in

the class of �� polar graphs�

This research was supported by INTAS and Belarus Government� grant INTAS�Belarus��

REFERENCES

�� L�W�Beineke �� Derived graphs and digraphs� Beitrage zur Graphentheorie�Leipzig� ��

�� R�N�Naik� S�B�Rao� S�S�Shrikhande� N�M�Singhi �� Intersection graphs of k�uni�form linear hypergraphs� Ann� Discrete Math� � ��

�� P�Hlin�en y� J�Kratochv il� �� Computational complexity of the Krausz dimension ofgraphs� Lecture notes in Computer Science� Springer�Verlag ��

�� Yu� Metelsky �� Split line graphs of hypergraphs of restricted rank� Vesti Akad�Navuk Belarusi ��

�� V�Eskov� R�Tyshkevich �� Towards characterization of line graphs of linear hyper�graphs with additional conditions� Vesti Akad� Navuk Belarusi ��

��Suzdal Stanislav Valerievich�Belarus State University�pr� F� Skoriny �� Minsk� �� Belarus�phone� �� e�mail� suzdal�bsu�by

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ALGORITHM SOLVING GENERAL MULTIVALUEDCOMPLEMENTARITY PROBLEM

V�V� Kalashnikov

Consider the general multi�valued �nonlinear� complementarity problem� Given anunbounded closed convex subset K Rn �for instance� a closed convex pointed coneK Rn with the vertex at the origin� and a multi�valued mapping F � K � �R

n

� �nd avector x � K such that there exists a linear form u � F �x� satisfying

hu� y � xi � �y � K� ��

We make the following assumptions�A�� The graph of the mapping F is closed�A�� For all z � K� the subset F �z� is nonempty and convex�A�� The range F �U� of every bounded subset U K is also bounded�Let � be a system of subsets in Rn satisfying the following assumptions�B�� Every subset S � � is closed and convex�B�� For each K � �� the intersection K � S is a non�empty �convex� compact�B�� For any bounded subset B Rn there is a S � � such that b S�

It is clear that a family of closed �in a certain norm� balls having nonempty intersec�tions with K can serve as the system described above�De�nition �� Let � be a system with properties B��B�� A system of points fzS� S � �gis called an exceptional family for complementarity problem �� if �rst� for every S � �the following inclusions are valid

zS � K � S� � F �zS� �NK�zS� �NS�zS��

and second� the point zS belongs to the boundary of the subset S� here NK�zS� andNS�zS� are the normal cones to the subsets K and S� respectively� at the point zS�Theorem �� Let K be a nonempty closed convex <unbounded= subset in Rn and let amapping F satisfy assumptions A��A�� If a system of subsets � has properties B��B��then either complementarity problem �� is solvable( or there exists an exceptional family�

Now the general scheme of solving problem �� numerically for some classes of map�pings F can be constructed as follows�

�� Select a sequence of compact subsets Sm� m � �� such that Sm �K �� Setk � ��

�� For m � k� solve the variational inequality �� by a certain numerical method�solution always exists� for example� for upper semi�continuous mappings F � due to thecompactness of the feasible subset Sm �K��

�� If the solution zk of problem �� is an interior point of the subset Sk then it alsosolves the initial problem �� and the algorithm stops�

�� Otherwise� if the solution zk of problem �� is a boundary element of the subset Sk�then set k � k � � and go to step ��

Theorem �� If complementarity problem �� is solvable( then the above algorithm 7ndsthe solution in a 7nite number of steps� Otherwise( if there is no solution to problem ��an exceptional family is constructed��Vyacheslav Kalashnikov� Central Economics and Mathematics Institute �CEMI��Nakhimovsky prospekt �� Moscow �� e�mail� slavkazd�mail�ru

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SIMULATION OF ELECTRICITY SYSTEMS BY MODELS OFCOURNOT AND STACKELBERG

N� I� Kalashnikova� C� Kemfert

Electricity systems are currently restructured� or about to be restructured� in manyparts of the world� The process does not follow a single paradigm� but some featuresare common to most situations� Competition is introduced in generation of the electricitywhile transmission and distribution remain regulated monopolies� A new function� namelysupply� is introduced� which matches loads and generation of di�erent types� It is under�taken by generators and�or internediators commonly referred to as �power marketers��Generators and�or power marketers need to have access to transmission and distributionservices in order to reach their customers� Thus� there also exist an organization in chargeof supplying these services� A wide variety of institutions can be constructed on the basisof these few principles� Two important questions exist and will remain ubiquitos in thesedi�erent organizations� What is the impact of the market power retained by the genera�tors and�or gained by the power marketers after the restructuring� How does the pricingof transmission services a�ect generation and investment in the transmission assets� Thispaper is an attempt to present a computable model capable of casting both issues into asingle framework�

An oligopoly with spatially dispersed generators and consumers and with multi�perioddemand is modeled� The generators are supposed to behave in a generalized Cournotmanner with in�uence coe¤cients depending upon their output and with regulated trans�mission prices� A generalized Nash equilibrium is sought� The story of the game is asfollows� Each generator� in contrast to the classical Cournot scheme� does not take itsrivals� outputs �generation� supply� and �ows� and the prices for transmission services as�xed but conjectures about their variations depending upon its in�uence coe¤cient� Thetransmission �rm takes the quantities of transmission services demanded by the genera�tors as �xed while adjusting the transmission prices according to certain regulatory rulesin the extended Cournot model� but it computes the generators� optimal responses to theproposed transmission prices in the Stackelberg model� An equilibrium of the generalizedCournot model is a set of generation outputs at which no generator gains more if it uni�laterally modi�es its output from the set while the set of transmission prices satis�es theregulatory requirements� A variational inequality approach is used to compute the equi�libria of the model� These models are applied to simulate a long�run electricity marketwhere transmision prices are regulated�

The model is tested on a test problem with � regions and � sources of energy� someconclusions are made on the basis of the numerical results�

��Natalia Kalashnikova�Sumy State University� Rimsky�Korsakov st�� Sumy �� Ukraine�� e�mail� natanl�mail�ru

Claudia Kemfert�University Oldenburg� Dept� of Economics I� D�� Oldenburg� Germany�� e�mail� kemfert�uni�oldenburg�de

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HAMILTON CYCLES PROBLEM ON HYPERGRAPHS

V� A� Perepelitsa� S� I� Salpagarov

The report deals with Hamiltonion cycles problem that is formed as follows� Letn�vertex� ��parteit ��homogeneous weighed hypergraph G � �V�E� �� The decisionof the problem admitted is Hamiltonian cycle x � �V�Ex� of hypergraph G� An ad�dition to common are de�nition from � we demand that a pair of edges from Ex

should intersect only in one vertex� Simple cycle are containing all the vertex set ofa hypergraph is called Hamiltonion� X � x � set of all decision admitted �SDA��F �x� � �F��x�� F��x�� FN�x�� vector aimed function �VAF�� containing criteria ofthe type MAXSUM F��x� �

Pe�Ex w��e� � max� � � �� N� and MAXMIN

F��x� � mine�Ex w��e� � max� � � N� � �� N � VAF F �x� de�nes on SDA �X Paretoset� Unknown decision of the problem is maximal set of vector uncomparable representa�tioes x � �X � called complete alternative set� The essential theoretical result is representedwith lemma of completeness of given problem � and theorem� capacity set of Hamilto�nion cycles on complete n�vertex graph is upper estimation for Hamiltonion cycles on anyn�vertex� ��homogeneous hypergraph � � ��

This research was supported by RFBR grant � ��

REFERENCES

�� Berge C� �� Graphes et hypergraphes� Dunod� Paris�

�� Emelichev V�A� and Perepelitsa V�A� �� Complexity of Vector Optimization prob�lem on Graphs� Optimization ��

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LINEAR OPTIMAL CONTROL MODELS IN MULTI�SEGMENT MARKETING�DUAL APPROACH

I� A� Bykadorov� A� Ellero� E� Moretti

We consider a linear optimal control model for the marketing of a seasonal productwhich is produced by a �rm and sold by retailers in di�erent market segments �� The time horizon is divided in two consecutive intervals� production and selling periods�respectively� The production period state variables are the inventory level and two kindsof goodwills �for consumers and for retailers� while the selling period state variables arethe sales levels and the two kinds of goodwills� In the production interval the �rm cancontrol production� quality and advertising� while in the selling period the controls are oncommunication via advertising� promotion for consumers and incentives for retailers� Themodel is transformed into an equivalent nonlinear programming problem de�ning somelinear optimal control subproblems� depending on common parameters� The parametricsubproblems are linear optimal control problems with �xed time intervals� �xed endpointsand box type constraints on control� The dual approach � for their analysis is suggested�If the general position condition �GPC� holds �hence the solution is unique and the optimalcontrol has bang�bang form�� then the approach is� of course� equivalent to the MaximumPrinciple� but it allows to obtain switch time conditions without calculating the optimaltrajectories� If a subproblem has feasible solution but GPC does not hold �hence thesolution is non unique and the Maximum Principle does not give enough information forsearching an optimal solution�� then the approach allows to calculate the optimal valueof the functional�

This research has been supported by Universit¦a Ca� Foscari di Venezia �Italia� and RFBR�grant no� � ��

REFERENCES

�� I�Bykadorov� A�Ellero and E�Moretti �� A linear optimal control model for multi�segment marketing� Report n�� Dipartimento di Matematica Applicata� Uni�versit¦a Ca� Foscari di Venezia �Italia�� R�T�Rockafellar �� Linear�Quadratic programming and optimal control� SIAMJournal of Control and Optimization �� M�Wedel� W�A�Kamakura �� Market segmentation� conceptual and methodologicalfoundations� �nd ed� Kluwer Academic Publishers� Boston�

��Bykadorov Igor Alexandrovich� Sobolev Institute of Mathematics SB RAS�Acad� Koptyug prospect �� Novosibirsk� �� Russia�tel� �� fax �� e�mail� bykad�math�nsc�ruand Universit¦a Ca� Foscari di Venezia� Dorsoduro ��e� Venezia� � �� Italia�tel� � �� fax � �� e�mail� bykadoro�unive�it

Ellero Andrea� Universit¦a Ca� Foscari di Venezia� Italia�tel� � �� e�mail� ellero�unive�it

Moretti Elena� Universit¦a Ca� Foscari di Venezia� Italia�tel� � �� e�mail� tomasin�unive�it

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SELF�SELECTION UNDER NON�ORDERED VALUATIONS�TYPE�SPLITTING� ENVY�CYCLES� RATIONING AND EFFICIENCY

B� Nahata� S� Kokovin� E� Zhelobodko

We analyze self�selection problem when valuations are non�ordered� The correspond�ing package�pricing solution has speci�c graph structure� It is helpful in deriving weaksu¤cient conditions for both partial e¤ciency and Pareto�e¤ciency� Unlike the orderedvaluations case� Pareto e¤ciency is shown to be a non�pathological case� Pareto e¤ciencyand positive consumer surplus are mutually exclusive� Under costs separability opti�mal package�pricing scheme is shown implementable by small rewards� Counter�examplesshow that our assumptions are essential� In certain non�ordered situations� package�optimization setting with rations is more appropriate than the standard setting�

KeyWords� Principal�agent� self�selection� nonlinear pricing� package pricing� Paretoe¤ciency� implementation� graph structure� envy cycles

This research was supported by RFBR �grants �� and �� by RFHRgrant �� by Integracia Program�� by University of Louisville �IRIG�RIG�� and PCG ��

REFERENCES

�� Salanie B� �� The Economics of Contracts( Cambridge� MA� MIT Press�

�� Varian H�R� �� Price Discrimination�� in Handbook of Industrial Organization�Vol� I� ed� by R�Schmalensee and R�D� Willig� Amsterdam� Elsevier Science� ��

��Babu Nahata�Department of Economics� University of Louisville� Louisville� Kentucky � �� USA�nahata�louisville�edu�

Zhelobodko Evgeny Vladimirovich�Department of Economics� Novosibirsk State University�ul� Pirogova �� Novosibirsk� �� Russia� ezhel�ieie�nsc�ru

Kokovin Serguei Gelievich�Sobolev Institute of Mathematics�pr� Academica Koptyuga �� Novosibirsk� �� Russia�phone� �� fax� �� e�mail� kokovin�math�nsc�ru

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ALGORITHMS FOR THE p�FACILITY LOCATION PROBLEMON TREES AND SERIES�PARALLEL GRAPHS

A� Ageev and A� Tamir

The p�facility location problem is a natural common generalization of the p�medianand the uncapacitated facility location problems� In the problem we are given a set ofm facilities F � a set of n demand points D� and a positive integer p� Each facility i � Fhas an opening cost fi � and for each facility i and each demand point j a connectioncost cij � is given� The objective is to open at most p facilities in F and connect eachdemand point to an open facility so that the total cost is minimized� We consider thenetwork version of the problem in which F and D are assumed to be vertex subsets ofa given graph G with nonnegative edge lengths and cij � fi�dij� where fi�� is a realnondecreasing function and dij is the length of a shortest path between facility i anddemand point j�

We present an O�pmn� algorithm for the case when G is a tree and an O�pm�n� al�gorithm for the case when G is a series�parallel graph� The algorithm for trees has thesame bound on the running time but much simpler than the one in �� The algorithmfor series�parallel graphs can be generalized to the case of partial k�trees for arbitrary k�Both algorithms and their analysis are based on developing ideas and techniques from��

The �rst author was supported by the Russian Foundation for Basic Research �grants �� by Programme MO RF �Universities of Russia� �grantUR� �� and by INTAS �grant ��

REFERENCES

�� Ageev A� A�� A criterion of polynomial�time solvability for the network loca�tion problem� in Integer Programming and Optimization �IPCO�� Campus Printing�Carnegie Mellon University� p� ��

�� Gimadi E� Kh�� An e:cient algorithm for solving the plant location problem withservice regions connected with respect to an acyclic network� Upravlayemye sistemy� N�� p� �� in Russian��

�� Hassin R�� Tamir A�� E:cient algorithms for optimization and selection onseries�parallel graphs� SIAM J� Algebraic Discrete Methods� V� �� N �� p� ��

�� Tamir A�� An O�pn�� algorithm for the p�median and related problems on treegraphs� Oper� Res� Lett� V� �� N �� p� ��

��Ageev Alexander Alexandrovich� Sobolev Institute of Mathematics�Akademika Koptyuga pr�� Novosibirsk� �� Russia�phone� �� fax� �� e�mail� ageev�math�nsc�ru

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SOME METHODS OF STATISTICAL EVALUATION OF LOCALOPTIMA STRUSTURE IN COMBINATORIAL LANDSCAPES

Anton V� Eremeev� Colin R� Reeves�

We will discuss some methods of evaluation of the di¤culty of combinatorial optimi�sation problems using repetitive restarts of a local search heuristic� These methods allowus to obtain the lower bounds for the number of local optima �with a given con�dencelevel� and to �nd its estimates based on maximum likelihood principle and using thenon�parametric techniques ��

Another important property evaluated on the basis of the same experimental datais the size of the basin of attraction of a certain local optimum or set of optima� Theconnections of these parameters to some other problem properties� such as the correla�tion of a random walk associated with the landscape and the �big valley�conjecture willbe considered as well� We will present the numerical results of assessment of the lowautocorrelation binary sequence problem �see e�g� �� Kau�man�s NK�landscapes ��vertex cover problems� and the problems of bu�ers allocation in production lines �� Inthese experiments we use a number of benchmark instances from the literature as well asrandomly generated problems�

This research was supported in part by a grant from the Royal Society and INTASgrant ��

REFERENCES

�� A� Dolgui� A� Eremeev� A� Kolokolov� and V� Sigaev A Genetic Algorithm for Al�location of BuXer Storage Capacities in Production Line with Unreliable Machines� Toappear in The Journal of Mathematical Modelling and Algorithms�

�� A�V�Eremeev� C�R�Reeves �� Non�parametric Estimation of Properties of Combi�natorial Landscapes� To appear in proceedings of EvoCOP�� Workshop�

�� S�A�Kau�man� �� Adaptation on Rugged Fitness Landscapes� In Lectures in theSciences of Complexity� vol� I of SFI studies� pp� �� Addison�Wesley� ��

��Anton Valentinovich Eremeev� Omsk Branch of Sobolev Institute of Mathematics�� Pevtsov str�� Omsk� �� Russia�phone� �� fax� �� e�mail� eremeev�iitam�omsk�net�ru

Colin Richard Reeves� School of Mathematical � Information Sciences�Coventry University� UK�Priory Street� Coventry CV� �FB� UK�phone� �� fax� �� e�mail� C�Reeves�coventry�ac�uk

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