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1. Blow-ups and extensions of trees in tournaments

Author

Aboulker, Pierre, Havet, Frédéric, Lochet, William, Lopes, Raul, Picasarri-Arrieta, Lucas, and Rambaud, Clément

Subjects
Mathematics - Combinatorics
Abstract

A class of acyclic digraphs $\mathscr{C}$ is linearly unavoidable if there exists a constant $c$ such that every digraph $D\in \mathscr{C}$ is contained in all tournaments of order $c\cdot |V(D)|$. The class of all acyclic digraphs is not linearly avoidable, and Fox, He, and Widgerson recently showed that this is not even the case for acyclic digraphs with bounded maximum degree. On the positive side, Thomason and H\"aggkvist proved that the class of oriented trees is linearly unavoidable. In this work, we generalize this result to acyclic digraphs obtained from an oriented tree by adding at most $k$ vertices, and $k$-blow-ups of oriented trees, for every fixed integer $k$. More precisely, we show that if $D$ is obtained from an oriented tree $F$ of order $n$ by adding $k$ universal vertices, then $D$ is contained in every tournament of order $2\cdot 3^{(k+1)(2k+1)} \cdot n$; and if $D$ is obtained from $F$ by replacing each vertex $u$ by an independent set $X_u$ of size $k$ and every arc $uv$ by all possible arcs from $X_u$ to $X_v$, then $D$ is contained in every tournament of order $2^{10+18k}k \cdot n$.

Published
2024

2. Constant congestion linkages in polynomially strong digraphs in polynomial time

Author

Lopes, Raul and Sau, Ignasi

Subjects
Computer Science - Data Structures and Algorithms, Computer Science - Computational Complexity, Mathematics - Combinatorics
Abstract

Given integers $k,c > 0$, we say that a digraph $D$ is $(k,c)$-linked if for every pair of ordered sets $\{s_1, \ldots, s_k\}$ and $\{t_1, \ldots, t_k\}$ of vertices of $D$, there are $P_1, \ldots, P_k$ such that for $i \in [k]$ each $P_i$ is a path from $s_i$ to $t_i$ and every vertex of $D$ appears in at most $c$ of those paths. Thomassen [Combinatorica, 1991] showed that for every fixed $k \geq 2$ there is no integer $p$ such that every $p$-strong digraph is $(k,1)$-linked. Edwards et al. [ESA, 2017] showed that every digraph $D$ with directed treewidth at least some function $f(k)$ contains a large bramble of congestion $2$ and that every $(36k^3 + 2k)$-strong digraph containing a bramble of congestion $2$ and size roughly $188k^3$ is $(k,2)$-linked. Since the directed treewidth of a digraph has to be at least its strong connectivity, this implies that there is a function $L(k)$ such that every $L(k)$-strong digraph is $(k,2)$-linked. This result was improved by Campos et al. [ESA, 2023], who showed that any $k$-strong digraph containing a bramble of size at least $2k(c\cdot k -c + 2) + c(k-1)$ and congestion $c$ is $(k,c)$-linked. Regarding the bramble, although the given bound on $f(k)$ is very large, Masa\v{r}\'ik et al. [SIDMA, 2022] showed that directed treewidth $\mathcal{O}(k^{48}\log^{13} k)$ suffices if the congestion is relaxed to $8$. We first show how to drop the dependence on $c$, for even $c$, on the size of the bramble that is needed in the work of Campos et al. [ESA, 2023]. Then, by making two local changes in the proof of Masa\v{r}\'ik et al. [SIDMA, 2022] we show how to build in polynomial time a bramble of size $k$ and congestion $8$ assuming that a large obstruction to directed treewidth (namely, a path system) is given. Applying these results, we show that there is a polynomial function $g(k)$ such that every $g(k)$-strong digraph is $(k,8)$-linked.

Published
2024

3. Finding forest-orderings of tournaments is NP-complete

Author

Aboulker, Pierre, Aubian, Guillaume, and Lopes, Raul

Subjects
Mathematics - Combinatorics
Abstract

Given a class of (undirected) graphs $\mathcal{C}$, we say that a Feedback Arc Set (FAS for short) $F$ is a $\mathcal{C}$-FAS if the graph induced by the edges of $F$ (forgetting their orientations) belongs to $\mathcal{C}$. We show that deciding if a tournament has a $\mathcal{C}$-FAS is NP-complete when $\mathcal{C}$ is the class of all forests. We are motivated by connections between $\mathcal{C}$-FAS and structural parameters of tournaments, such as the dichromatic number, the clique number of tournaments, and the strong Erd\H{o}s-Hajnal property.

Published
2024

4. Clique number of tournaments

Author

Aboulker, Pierre, Aubian, Guillaume, Charbit, Pierre, and Lopes, Raul

Subjects
Mathematics - Combinatorics, Computer Science - Discrete Mathematics, 05C20
Abstract

We introduce the notion of clique number of a tournament and investigate its relation with the dichromatic number. In particular, it permits defining $\dic$-bounded classes of tournaments, which is the paper's main topic.

Published
2023

5. New Menger-like dualities in digraphs and applications to half-integral linkages

Author

Campos, Victor, Costa, Jonas, Lopes, Raul, and Sau, Ignasi

Subjects
Mathematics - Combinatorics, Computer Science - Data Structures and Algorithms
Abstract

We present new min-max relations in digraphs between the number of paths satisfying certain conditions and the order of the corresponding cuts. We define these objects in order to capture, in the context of solving the half-integral linkage problem, the essential properties needed for reaching a large bramble of congestion two (or any other constant) from the terminal set. This strategy has been used ad-hoc in several articles, usually with lengthy technical proofs, and our objective is to abstract it to make it applicable in a simpler and unified way. We provide two proofs of the min-max relations, one consisting in applying Menger's Theorem on appropriately defined auxiliary digraphs, and an alternative simpler one using matroids, however with worse polynomial running time. As an application, we manage to simplify and improve several results of Edwards et al. [ESA 2017] and of Giannopoulou et al. [SODA 2022] about finding half-integral linkages in digraphs. Concerning the former, besides being simpler, our proof provides an almost optimal bound on the strong connectivity of a digraph for it to be half-integrally feasible under the presence of a large bramble of congestion two (or equivalently, if the directed tree-width is large, which is the hard case). Concerning the latter, our proof uses brambles as rerouting objects instead of cylindrical grids, hence yielding much better bounds and being somehow independent of a particular topology. We hope that our min-max relations will find further applications as, in our opinion, they are simple, robust, and versatile to be easily applicable to different types of routing problems in digraphs.

Published
2023

6. On Computing Large Temporal (Unilateral) Connected Components

Author

Costa, Isnard Lopes, Lopes, Raul, Marino, Andrea, and Silva, Ana

Subjects
Mathematics - Combinatorics
Abstract

A temporal (directed) graph is a graph whose edges are available only at specific times during its lifetime, $\tau$. Paths are sequences of adjacent edges whose appearing times are either strictly increasing or non-strictly increasingly (i.e., non-decreasing) depending on the scenario. Then, the classical concept of connected components and also of unilateral connected components in static graphs and digraphs naturally extends to the temporal setting. In this paper, we answer to the following fundamental questions in temporal graphs. (i) What is the complexity of deciding the existence of a component of size $k$, parameterized by $\tau$, by $k$, and by $k+\tau$? We show that this question has a different answer depending on the considered definition of component and whether the temporal graph is directed or undirected. (ii) What is the minimum running time required to check whether a subset of vertices are pairwise reachable? A quadratic algorithm is known but, contrary to the static case, we show that a better running time is unlikely unless SETH fails. (iii) Is it possible to verify whether a subset of vertices is a component in polynomial time? We show that depending on the definition of temporal component this test is NP-complete.

Published
2023

7. Menger's Theorem for Temporal Paths (Not Walks)

Author

Ibiapina, Allen, Lopes, Raul, Marino, Andrea, and Silva, Ana

Subjects
Computer Science - Discrete Mathematics, Mathematics - Combinatorics
Abstract

A (directed) temporal graph is a (directed) graph whose edges are available only at specific times during its lifetime $\tau$. Temporal walks are sequences of adjacent edges whose appearing times are either strictly increasing or non-decreasing (here called non-strict), depending on the scenario. Paths are temporal walks where no vertex repetition is allowed. A temporal vertex is a pair $(u,i)$ where $u$ is a vertex and $i\in[\tau]$ a timestep. In this paper we focus on the questions: (i) are there at least $k$ paths from a single source $s$ to a single target $t$, no two of which internally intersect on a temporal vertex? (ii) are there at most $h$ temporal vertices whose removal disconnects $s$ from $t$? Let $k^*$ be the maximum value $k$ for which the answer to (i) is YES, and let $h^*$ be the minimum value $h$ for which the answer to (ii) is YES. In static graphs, $k^*$ and $h^*$ are equal by Menger's Theorem and this is a crucial property to solve efficiently both (i) and (ii). In temporal graphs such equality has been investigated only focusing on disjoint walks rather than disjoint paths. In this context, we prove that $k^*$ is equal to $h^*$ if and only if $k^*$ is 1. We show that this implies a dichotomy for (i), which turns out to be polynomial-time solvable when $k \le 2$, and NP-complete for $k \ge 3$. Finally, we give hardness results and an XP algorithm for (ii).

Published
2022

8. Twin-width VIII: delineation and win-wins

Author

Bonnet, Édouard, Chakraborty, Dibyayan, Kim, Eun Jung, Köhler, Noleen, Lopes, Raul, and Thomassé, Stéphan

Subjects
Computer Science - Data Structures and Algorithms, Computer Science - Discrete Mathematics, Computer Science - Logic in Computer Science, Mathematics - Combinatorics, 05C85, 05C75, F.2.2
Abstract

We introduce the notion of delineation. A graph class $\mathcal C$ is said delineated if for every hereditary closure $\mathcal D$ of a subclass of $\mathcal C$, it holds that $\mathcal D$ has bounded twin-width if and only if $\mathcal D$ is monadically dependent. An effective strengthening of delineation for a class $\mathcal C$ implies that tractable FO model checking on $\mathcal C$ is perfectly understood: On hereditary closures $\mathcal D$ of subclasses of $\mathcal C$, FO model checking is fixed-parameter tractable (FPT) exactly when $\mathcal D$ has bounded twin-width. Ordered graphs [BGOdMSTT, STOC '22] and permutation graphs [BKTW, JACM '22] are effectively delineated, while subcubic graphs are not. On the one hand, we prove that interval graphs, and even, rooted directed path graphs are delineated. On the other hand, we show that segment graphs, directed path graphs, and visibility graphs of simple polygons are not delineated. In an effort to draw the delineation frontier between interval graphs (that are delineated) and axis-parallel two-lengthed segment graphs (that are not), we investigate the twin-width of restricted segment intersection classes. It was known that (triangle-free) pure axis-parallel unit segment graphs have unbounded twin-width [BGKTW, SODA '21]. We show that $K_{t,t}$-free segment graphs, and axis-parallel $H_t$-free unit segment graphs have bounded twin-width, where $H_t$ is the half-graph or ladder of height $t$. In contrast, axis-parallel $H_4$-free two-lengthed segment graphs have unbounded twin-width. Our new results, combined with the known FPT algorithm for FO model checking on graphs given with $O(1)$-sequences, lead to win-win arguments. For instance, we derive FPT algorithms for $k$-Ladder on visibility graphs of 1.5D terrains, and $k$-Independent Set on visibility graphs of simple polygons., Comment: 51 pages, 19 figures

Published
2022

10. Adapting the Directed Grid Theorem into an FPT Algorithm

Author

Campos, Victor, Lopes, Raul, Maia, Ana Karolinna, and Sau, Ignasi

Subjects
Computer Science - Data Structures and Algorithms, Computer Science - Computational Complexity, Mathematics - Combinatorics, 05C20, G.2.2, F.2.2
Abstract

The Grid Theorem of Robertson and Seymour [JCTB, 1986], is one of the most important tools in the field of structural graph theory, finding numerous applications in the design of algorithms for undirected graphs. An analogous version of the Grid Theorem in digraphs was conjectured by Johnson et al. [JCTB, 2001], and proved by Kawarabayashi and Kreutzer [STOC, 2015]. Namely, they showed that there is a function $f(k)$ such that every digraph of directed tree-width at least $f(k)$ contains a cylindrical grid of size $k$ as a butterfly minor and stated that their proof can be turned into an XP algorithm, with parameter $k$, that either constructs a decomposition of the appropriate width, or finds the claimed large cylindrical grid as a butterfly minor. In this paper, we adapt some of the steps of the proof of Kawarabayashi and Kreutzer to improve this XP algorithm into an FPT algorithm. Towards this, our main technical contributions are two FPT algorithms with parameter $k$. The first one either produces an arboreal decomposition of width $3k-2$ or finds a haven of order $k$ in a digraph $D$, improving on the original result for arboreal decompositions by Johnson et al. The second algorithm finds a well-linked set of order $k$ in a digraph $D$ of large directed tree-width. As tools to prove these results, we show how to solve a generalized version of the problem of finding balanced separators for a given set of vertices $T$ in FPT time with parameter $|T|$, a result that we consider to be of its own interest., Comment: 36 pages, 14 figures

Published
2020

11. Coloring Problems on Bipartite Graphs of Small Diameter

Author

Campos, Victor A., Gomes, Guilherme C. M., Ibiapina, Allen, Lopes, Raul, Sau, Ignasi, and Silva, Ana

Subjects
Mathematics - Combinatorics, Computer Science - Computational Complexity, Computer Science - Data Structures and Algorithms, 05C15, G.2.2, F.2.2
Abstract

We investigate a number of coloring problems restricted to bipartite graphs with bounded diameter. First, we investigate the $k$-List Coloring, List $k$-Coloring, and $k$-Precoloring Extension problems on bipartite graphs with diameter at most $d$, proving NP-completeness in most cases, and leaving open only the List $3$-Coloring and $3$-Precoloring Extension problems when $d=3$. Some of these results are obtained through a proof that the Surjective $C_6$-Homomorphism problem is NP-complete on bipartite graphs with diameter at most four. Although the latter result has been already proved [Vikas, 2017], we present ours as an alternative simpler one. As a byproduct, we also get that $3$-Biclique Partition is NP-complete. An attempt to prove this result was presented in [Fleischner, Mujuni, Paulusma, and Szeider, 2009], but there was a flaw in their proof, which we identify and discuss here. Finally, we prove that the $3$-Fall Coloring problem is NP-complete on bipartite graphs with diameter at most four, and prove that NP-completeness for diameter three would also imply NP-completeness of $3$-Precoloring Extension on diameter three, thus closing the previously mentioned open cases. This would also answer a question posed in [Kratochv\'il, Tuza, and Voigt, 2002]., Comment: 21 pages, 9 figures

Published
2020

12. Edge-Disjoint Branchings in Temporal Graphs

Author

Campos, Victor, Lopes, Raul, Marino, Andrea, and Silva, Ana

Subjects
Computer Science - Data Structures and Algorithms, 05C85
Abstract

A temporal digraph ${\cal G}$ is a triple $(G, \gamma, \lambda)$ where $G$ is a digraph, $\gamma$ is a function on $V(G)$ that tells us the timestamps when a vertex is active, and $\lambda$ is a function on $E(G)$ that tells for each $uv \in E(G)$ when $u$ and $v$ are linked. Given a static digraph $G$, and a subset $R\subseteq V(G)$, a spanning branching with root $R$ is a subdigraph of $G$ that has exactly one path from $R$ to each $v\in V(G)$. In this paper, we consider the temporal version of Edmonds' classical result about the problem of finding $k$ edge-disjoint spanning branchings respectively rooted at given $R_1,\cdots,R_k$. We introduce and investigate different definitions of spanning branchings, and of edge-disjointness in the context of temporal graphs. A branching ${\cal B}$ is vertex-spanning if the root is able to reach each vertex $v$ of $G$ at some time where $v$ is active, while it is temporal-spanning if $v$ can be reached from the root at every time where $v$ is active. On the other hand, two branchings ${\cal B}_1$ and ${\cal B}_2$ are edge-disjoint if they do not use the same edge of $G$, and are temporal-edge-disjoint if they can use the same edge of $G$ but at different times. This lead us to four definitions of disjoint spanning branchings and we prove that, unlike the static case, only one of these can be computed in polynomial time, namely the temporal-edge-disjoint temporal-spanning branchings problem, while the other versions are $\mathsf{NP}$-complete, even under very strict assumptions., Comment: 16 pages, 4 figures

Published
2020

13. A relaxation of the Directed Disjoint Paths problem: a global congestion metric helps

Author

Lopes, Raul and Sau, Ignasi

Subjects
Computer Science - Data Structures and Algorithms, Computer Science - Computational Complexity, Mathematics - Combinatorics, 05C85, G.2.2
Abstract

In the Directed Disjoint Paths problem, we are given a digraph $D$ and a set of requests $\{(s_1, t_1), \ldots, (s_k, t_k)\}$, and the task is to find a collection of pairwise vertex-disjoint paths $\{P_1, \ldots, P_k\}$ such that each $P_i$ is a path from $s_i$ to $t_i$ in $D$. This problem is NP-complete for fixed $k=2$ and W[1]-hard with parameter $k$ in DAGs. A few positive results are known under restrictions on the input digraph, such as being planar or having bounded directed tree-width, or under relaxations of the problem, such as allowing for vertex congestion. Positive results are scarce, however, for general digraphs. In this article we propose a novel global congestion metric for the problem: we only require the paths to be "disjoint enough", in the sense that they must behave properly not in the whole graph, but in an unspecified part of size prescribed by a parameter. Namely, in the Disjoint Enough Directed Paths problem, given an $n$-vertex digraph $D$, a set of $k$ requests, and non-negative integers $d$ and $s$, the task is to find a collection of paths connecting the requests such that at least $d$ vertices of $D$ occur in at most $s$ paths of the collection. We study the parameterized complexity of this problem for a number of choices of the parameter, including the directed tree-width of $D$. Among other results, we show that the problem is W[1]-hard in DAGs with parameter $d$ and, on the positive side, we give an algorithm in time $\mathcal{O}(n^{d+2} \cdot k^{d\cdot s})$ and a kernel of size $d \cdot 2^{k-s}\cdot \binom{k}{s} + 2k$ in general digraphs. This latter result has consequences for the Steiner Network problem: we show that it is FPT parameterized by the number $k$ of terminals and $p$, where $p = n - q$ and $q$ is the size of the solution., Comment: 25 pages, 9 figures

Published
2019
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15. Parameterized Algorithms for Steiner Tree and Dominating Set: Bounding the Leafage by the Vertex Leafage

Author

de Figueiredo, Celina M. H., Lopes, Raul, de Melo, Alexsander A., Silva, Ana, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Mutzel, Petra, editor, Rahman, Md. Saidur, editor, and Slamin, editor

Published
2022
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16. Parameterized algorithms for Steiner tree and (connected) dominating set on path graphs.

Author

de Figueiredo, Celina M. H., Lopes, Raul, de Melo, Alexsander A., and Silva, Ana

Subjects
DOMINATING set, TREE graphs, UNDIRECTED graphs, POLYNOMIAL time algorithms, DIRECTED graphs, ALGORITHMS, INTERSECTION graph theory
Abstract

Chordal graphs are the intersection graphs of subtrees of a tree, while interval graphs of subpaths of a path. Undirected path graphs, directed path graphs and rooted directed path graphs are intermediate graph classes, defined, respectively, as the intersection graphs of paths of a tree, of directed paths of an oriented tree, and of directed paths of an out branching. All of these path graphs have vertex leafage 2. DominatingSet, ConnectedDominatingSet, and Steinertree problems are W[2]$$ \mathrm{W}\left[2\right] $$‐hard parameterized by the size of the solution on chordal graphs, NP$$ \mathrm{NP} $$‐complete on undirected path graphs, and polynomial‐time solvable on rooted directed path graphs, and hence also on interval graphs. We further investigate the (parameterized) complexity of all these problems when constrained to chordal graphs, taking the vertex leafage and the aforementioned classes into consideration. We prove that DominatingSet, ConnectedDominatingSet, and Steinertree are FPT$$ \mathrm{FPT} $$ on chordal graphs when parameterized by the size of the solution plus the vertex leafage, and that WeightedConnectedDominatingSet is polynomial‐time solvable on strongly chordal graphs. We also introduce a new subclass of undirected path graphs, which we call in–out rooted directed path graphs, as the intersection graphs of directed paths of an in–out branching. We prove that DominatingSet, ConnectedDominatingSet, and Steinertree are solvable in polynomial time on this class, generalizing the polynomiality for rooted directed path graphs proved by Booth and Johnson (SIAM J. Comput. 11 (1982), 191‐199.) and by White et al. (Networks 15 (1985), 109‐124.). [ABSTRACT FROM AUTHOR]

Published
2024
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18. Innovative Local Policies in Portuguese Low-Density Rural Areas

Author

Lopes Raul and Mota Bruno

Subjects
rural development policy, innovative local policies, low-density rural areas, local authority action, portugal, Agriculture, Social Sciences
Abstract

Nowadays, the issue of rural development has a central place on the agenda of policy-makers, prompting a discussion on the instrumental and procedural options of public policies. This paper seeks to contribute to the reflection on the potentialities and limitations of promoting rural development based on innovative strategies sustained by territorial governance modalities, which entail an active involvement of local agents, especially local authorities. For this, it takes as case studies three public policy experiences led by local authorities within a Portuguese low-density region, with one of the lowest development rates among EU regions. Specifically, it aims to discuss: (a) the effectiveness of adopting innovative policies in the context of low-density rural areas; and (2) the role of territorial governance in the success of those policies. The research followed a document analysis and interviews with local development actors. The analysis suggests that peripheral rural areas are not condemned to human desertification. There is a wide spectrum of opportunities for these areas. They can bring together a strategic view of the future, and an institutional leadership capable of dynamizing an adjusted territorial governance model. This is the challenge currently facing rural development policy.

Published
2021
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22. Certified Derivative-Based Parsing of Regular Expressions

Author

Lopes, Raul, Ribeiro, Rodrigo, Camarão, Carlos, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Castor, Fernando, editor, and Liu, Yu David, editor

Published
2016
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24. New Menger-Like Dualities in Digraphs and Applications to Half-Integral Linkages

Author

Victor Campos and Jonas Costa and Raul Lopes and Ignasi Sau, Campos, Victor, Costa, Jonas, Lopes, Raul, Sau, Ignasi, Victor Campos and Jonas Costa and Raul Lopes and Ignasi Sau, Campos, Victor, Costa, Jonas, Lopes, Raul, and Sau, Ignasi

Abstract

We present new min-max relations in digraphs between the number of paths satisfying certain conditions and the order of the corresponding cuts. We define these objects in order to capture, in the context of solving the half-integral linkage problem, the essential properties needed for reaching a large bramble of congestion two (or any other constant) from the terminal set. This strategy has been used ad-hoc in several articles, usually with lengthy technical proofs, and our objective is to abstract it to make it applicable in a simpler and unified way. We provide two proofs of the min-max relations, one consisting in applying Menger’s Theorem on appropriately defined auxiliary digraphs, and an alternative simpler one using matroids, however with worse polynomial running time. As an application, we manage to simplify and improve several results of Edwards et al. [ESA 2017] and of Giannopoulou et al. [SODA 2022] about finding half-integral linkages in digraphs. Concerning the former, besides being simpler, our proof provides an almost optimal bound on the strong connectivity of a digraph for it to be half-integrally feasible under the presence of a large bramble of congestion two (or equivalently, if the directed tree-width is large, which is the hard case). Concerning the latter, our proof uses brambles as rerouting objects instead of cylindrical grids, hence yielding much better bounds and being somehow independent of a particular topology. We hope that our min-max relations will find further applications as, in our opinion, they are simple, robust, and versatile to be easily applicable to different types of routing problems in digraphs.

Published
2023
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26. O FENÓMENO AMOR

Author

Lopes, Raul Guimarães

Abstract

Entendamos o termo fenómeno. No uso corrente é algo inusitado, raro, insólito. Nada mais divergente do vulgar conceito de amor. Em nós, tão natural, usual, comum — tido como atração, afeiçoamento, inclinação. Neste âmbito é imanente, sensível. Só pode conceder momentânea “paixão”. Iremos, contudo, falar de outro Amor, só encontrado nas esferas superiores da Existência. E conhecer a essência do Fenómeno Amor., Ad Aeternum, v. 1 n. 5 (2023): RELIGIÃO E EDUCAÇÃO

Published
2023
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27. IPv6-only networking on WLCG

Author

Babik Marian, Bly Martin, Chown Tim, Christidis Dimitrios, Chudoba Jiři, Condurache Catalin, Finnern Thomas, Froy Terry, Grigoras Costin, Hafeez Kashif, Hoeft Bruno, Kelsey David, Lopes Raul, López Muñoz Fernando, Martelli Edoardo, Nandakumar Raja, Ohrenberg Kars, Prelz Francesco, Rand Duncan, and Sciabà Andrea

Subjects
Physics, QC1-999
Abstract

The use of IPv6 on the general Internet continues to grow. The transition of the Worldwide Large Hadron Collider Computing Grid (WLCG) central and storage services to dual-stack IPv6/IPv4 is progressing well, thus enabling the use of IPv6-only CPU resources as agreed by the WLCG Management Board and presented by us at earlier CHEP conferences. During the last year, the HEPiX IPv6 Working Group has continued to chase and support the transition to dual-stack services. We present the status of the transition and some tests that have been made of IPv6-only CPU showing the successful use of IPv6 protocols in accessing WLCG services. The dual-stack deployment does however result in a networking environment which is more complex than when using just IPv6. The group is investigating the removal of the IPv4 protocol in places. We present the areas where this could be useful together with our future plans.

Published
2020
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31. Integration and Evaluation of QUIC and TCP-BBR in longhaul Science Data Transfers

Author

Lopes Raul H. C., Franqueira Virginia N. L., and Rand Duncan

Subjects
Physics, QC1-999
Abstract

Two recent and promising additions to the internet protocols are TCP-BBR and QUIC. BBR defines a congestion policy that promises a better control in TCP bottlenecks on long haul transfers and can also be used in the QUIC protocol. TCP-BBR is implemented in the Linux kernels above 4.9. It has been shown, however, to demand careful fine tuning in the interaction, for example, with the Linux Fair Queue. QUIC, on the other hand, replaces HTTP and TLS with a protocol on the top of UDP and thin layer to serve HTTP. It has been reported to account today for 7% of Google’s traffic. It has not been used in server-to-server transfers even if its creators see that as a real possibility. Our work evaluates the applicability and tuning of TCP-BBR and QUIC for data science transfers. We describe the deployment and performance evaluation of TCP-BBR and comparison with CUBIC and H-TCP in transfers through the TEIN link to Singaren (Singapore). Also described is the deployment and initial evaluation of a QUIC server. We argue that QUIC might be a perfect match in security and connectivity to base services that are today performed by the Xroot redirectors.

Published
2019
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34. Twin-Width VIII: Delineation and Win-Wins

Author

Édouard Bonnet and Dibyayan Chakraborty and Eun Jung Kim and Noleen Köhler and Raul Lopes and Stéphan Thomassé, Bonnet, Édouard, Chakraborty, Dibyayan, Kim, Eun Jung, Köhler, Noleen, Lopes, Raul, Thomassé, Stéphan, Édouard Bonnet and Dibyayan Chakraborty and Eun Jung Kim and Noleen Köhler and Raul Lopes and Stéphan Thomassé, Bonnet, Édouard, Chakraborty, Dibyayan, Kim, Eun Jung, Köhler, Noleen, Lopes, Raul, and Thomassé, Stéphan

Abstract

We introduce the notion of delineation. A graph class C is said delineated by twin-width (or simply, delineated) if for every hereditary closure D of a subclass of C, it holds that D has bounded twin-width if and only if D is monadically dependent. An effective strengthening of delineation for a class C implies that tractable FO model checking on C is perfectly understood: On hereditary closures of subclasses D of C, FO model checking on D is fixed-parameter tractable (FPT) exactly when D has bounded twin-width. Ordered graphs [BGOdMSTT, STOC '22] and permutation graphs [BKTW, JACM '22] are effectively delineated, while subcubic graphs are not. On the one hand, we prove that interval graphs, and even, rooted directed path graphs are delineated. On the other hand, we observe or show that segment graphs, directed path graphs (with arbitrarily many roots), and visibility graphs of simple polygons are not delineated. In an effort to draw the delineation frontier between interval graphs (that are delineated) and axis-parallel two-lengthed segment graphs (that are not), we investigate the twin-width of restricted segment intersection classes. It was known that (triangle-free) pure axis-parallel unit segment graphs have unbounded twin-width [BGKTW, SODA '21]. We show that K_{t,t}-free segment graphs, and axis-parallel H_t-free unit segment graphs have bounded twin-width, where H_t is the half-graph or ladder of height t. In contrast, axis-parallel H₄-free two-lengthed segment graphs have unbounded twin-width. We leave as an open question whether unit segment graphs are delineated. More broadly, we explore which structures (large bicliques, half-graphs, or independent sets) are responsible for making the twin-width large on the main classes of intersection and visibility graphs. Our new results, combined with the FPT algorithm for first-order model checking on graphs given with O(1)-sequences [BKTW, JACM '22], give rise to a variety of algorithmic win-win arguments. They al

Published
2022
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39. PSICOLOGIA EXISTENCIAL EM TEMPO PANDÉMICO

Author

Lopes, Raul Guimarães

Abstract

No tempo conturbado pela pandemia temos, como psiquiatras e psicólogos, a responsabilidade da nossa saúde mental bem como a dos outros. Verifica-se aumento da preocupação, do desassossego e da agressividade com violência. Antigo mal-estar e desavenças no seio da família degeneram ao autorrestringir a movimentação interior. Nesse caso, não saber o que fazer gera tensão. Isso só pode ser apaziguado pela ocupação do tempo, com agrado. Atividades de lazer libertam. Explorar o novo, é o mote!, Ad Aeternum, v. 1 n. 3 (2022): RELIGIÃO E VIOLÊNCIA

Published
2021
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42. Disjoint paths and the Grid Theorem in Digraphs

Author

Lopes, Raul Wayne Teixeira and Campos, Victor Almeida

Subjects
Parameterized complexity, Dual parameterization, Directed disjoint paths, Digraphs, Directed tree-width, Kernelization, Grid Theorem
Abstract

In parameterized complexity, it is often the case that FPT problems in undirected graphs become W[1]-hard when translated to the directed setting. The DIRECTED DISJOINT PATHS problem, a notoriously hard problem in digraphs, is a classical example of this: Robertson and Seymour [1] showed that undirected version is FPT when parameterized by the number k of requests but, on the other hand, Fortune et al. [2], showed that the directed version is NP-complete for fixed k = 2 and Slivkins [3] showed that it is W[1]-hard with parameter k even when restricted to acyclic digraphs. In this thesis, we provide two new results regarding parameterized complexityin digraphs. First, we show how to adapt the Directed Grid Theorem by Kawarabayashi and Kreutzer [4], a result analogous to the celebrated Grid Theorem by Robertson and Seymour [5], into an FPT algorithm. Then, we introduce a novel relaxation for DIRECTED DISJOINT PATHS in which we only require the paths to behave properly not in the whole digraph, but in an unspecified part of size prescribed by a parameter. Namely, in the DISJOINT ENOUGH DIRECTED PATHS problem, given a digraph D together with a set of k pairs of vertices (the requests) and two non-negative integers k and s, the task is to find a collection of paths connecting the requests such that at least d vertices of D occur in at most s paths of the collection. Amongst other algorithmic and hardness we show that this problem has a kernel in general digraphs. This result has consequences for the STEINER NETWORK problem: we show that it is FPT parameterized by the number k of terminals and p, where p = n − q and q is the size of the solution. Em complexidade parameterizada, frequentemente nos deparamos com problemas FPT em grafos não direcionados que se tornam W[1]-difíceis quando adaptados para o caso direcionado. O problema de CAMINHOS DIRECIONADOS E DISJUNTOS, um problema notoriamente difícil em digrafos, é um clássico exemplo disto: Robertson e Seymour [1] mostraram que a versão não direcionada deste problema é FPT quando parameterizada pelo número k de demandas mas, por outro lado, Fortune et al. [2] mostraram que a versão direcionada é NP-completa para k = 2 fixo e Slivkins [3] mostrou que é W[1]-difícil com relação ao parâmetro k mesmo quando restrito a digrafos acíclicos. Nesta tese, nós mostramos dois novos resultados relacionados a complexidade parameterizada em digrafos. Primeiro, mostramos como adaptar o Teorema do Grid Cilíndrico de Kawarabayashi e Kreutzer [4], um resultado análogo ao celebrado Teorema do Grid de Robertson e Seymour [5], em um algoritmo FPT. Depois, nós introduzimos uma nova relaxação de CAMINHOS DIRECIONADOS E DISJUNTOS onde pedimos apenas que os caminhos comportem-se adequadamente não no digrafo inteiro, mas em uma parte não especificada de tamanho dado por um parâmetro. Isto é, no problema de CAMINHOS DIRECIONADOS SUFICIENTEMENTE DISJUNTOS, recebemos um digrafo D junto com um conjunto de k pares de vértices (as demandas) e dois inteiros não-negativos k e s, e o objetivo é encontrar uma coleção de caminhos ligando as demandas tal que pelo menos d vértices de D ocorram em no máximo s caminhos da coleção. Entre outros resultados algorítmicos e de dificuldade, mostramos que este problema tem um kernel em digrafos. Este resultado tem consequências para o problema de REDE DE STEINER: nós mostramos que este é FPT parameterizado pelo número k de terminais e p, onde p = n−q e q é o tamanho da solução.

Published
2021

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