Keyword search in graphs, relational databases and social networks

Keyword search, a well known mechanism for retrieving relevant information from a set of documents, has recently been studied for extracting information from structured data (e.g., relational databases and XML documents). It offers an alternative way to query languages (e.g., SQL) to explore databases, which is effective for lay users who may not be familiar with the database schema or the query language. This dissertation addresses some issues in keyword search in structured data. Namely, novel solutions to existing problems in keyword search in graphs or relational databases are proposed. In addition, a problem related to graph keyword search, team formation in social networks, is studied. The dissertation consists of four parts. The first part addresses keyword search over a graph which finds a substructure of the graph containing all or some of the query keywords. Current methods for keyword search over graphs may produce answers in which some content nodes (i.e., nodes that contain input keywords) are not very close to each other. In addition, current methods explore both content and non-content nodes while searching for the result and are thus both time and memory consuming for large graphs. To address the above problems, we propose algorithms for finding r-cliques in graphs. An r-clique is a group of content nodes that cover all the input keywords and the distance between each pair of nodes is less than or equal to r. Two approximation algorithms that produce r-cliques with a bounded approximation ratio in polynomial delay are proposed. In the second part, the problem of duplication-free and minimal keyword search in graphs is studied. Current methods for keyword search in graphs may produce duplicate answers that contain the same set of content nodes. In addition, an answer found by these methods may not be minimal in the sense that some of the nodes in the answer may contain query keywords that are all covered by other nodes in the answer. Removing these nodes does not change the coverage of the answer but can make the answer more compact. We define the problem of finding duplication-free and minimal answers, and propose algorithms for finding such answers efficiently. Meaningful keyword search in relational databases is the subject of the third part of this dissertation. Keyword search over relational databases returns a join tree spanning tuples containing the query keywords. As many answers of varying quality can be found, and the user is often only interested in seeing the·top-k answers, how to gauge the relevance of answers to rank them is of paramount importance. This becomes more pertinent for databases with large and complex schemas. We focus on the relevance of join trees as the fundamental means to rank the answers. We devise means to measure relevance of relations and foreign keys in the schema over the information content of the database. The problem of keyword search over graph data is similar to the problem of team formation in social networks. In this setting, keywords represent skills and the nodes in a graph represent the experts that possess skills. Given an expert network, in which a node represents an expert that has a cost for using the expert service and an edge represents the communication cost between the two corresponding experts, we tackle the problem of finding a team of experts that covers a set of required skills and also minimizes the communication cost as well as the personnel cost of the team. We propose two types of approximation algorithms to solve this bi-criteria problem in the fourth part of this dissertation

Advances in knowledge discovery and data mining Part II

19th Pacific-Asia Conference, PAKDD 2015, Ho Chi Minh City, Vietnam, May 19-22, 2015, Proceedings, Part II</p

Information technology, contract and knowledge in the networked economy: a biography of packaged software for contract management

In this research I investigate the intersection of information and communication technology (ICT), contract and knowledge in the networked economy as illuminated by the “life” of contract management software (CMS). The failure of CMS to fulfill market expectations provides the motivating question for this study. Based on interview, survey and archival data, I construct a “biography” of CMS from a market perspective informed by the theory of commoditization as well as studies of markets from economic sociology. From the latter, I draw upon the theory of performativity in markets to identify in the failure of CMS a series of breakdowns in performative assumptions and operations normally at work in the making of a packaged software market, ranging from a failure in classification performativity to a detachment of marketized criteria, in the form of analyst ratings, from the underlying software product and vendors. This catalog of breakdown indicates that packaged software production implicates multiple levels of commoditization, including financialized meta-commodities and marketized criteria, in a dynamic I theorize as substitution of performance. I explore the implications of my findings for packaged software and for process commodities more generally, suggesting, inter alia, that process commoditization may revolve around contract and information exchange rather than product definition. I go on to propose an open theorization of contract as a technology of connectedness, in a relationship of potential convergence, complementarity and substitution with ICT, interpenetrating and performative. My contributions are to information systems and organizations research on the topics of packaged software and the relationship of ICT, contract and organizational knowledge; and to economic sociology on the topics of performativity in markets and product qualification in process commoditization

Analysis of Chinese travel blogs of New Zealand

The Chinese outbound tourism market is a fast growing source market for many destinations. However, more research is needed to better understand the Chinese outbound tourism market and its diversity and complexity. Again, it can be argued that consistent monitoring of what is a fast evolving market is required, even where prior research has been undertaken. The aim of this research is to provide the tourism industry with a better understanding of the Chinese tourist market and the attitudes of Chinese visitors with specific reference to New Zealand. Consequently perceived destination image, travel motivations, and patterns of online communications of and about New Zealand were identified by analysing travel blogs written by Chinese tourists. Given that there were 181 million bloggers existing in China by the end of 2009 (CNNIC, 2009), blogs written by Chinese visitors have a significant market value for tourism organisations and marketers. This study used content analysis to identify the perceived destination image held by Chinese tourists to New Zealand. In this study, the analytical process was divided into two parts, namely photographic and textual analysis. In each of the two parts, qualitative content analysis was first undertaken, and then followed by secondary quantitative analysis to support the findings discerned through the qualitative process. By analysing 6968 photographs and 408 blog entries posted by Chinese visitors, an image of New Zealand as a tourism destination was identified. The findings revealed that the main components of New Zealand, as perceived by Chinese visitors, were that it possessed a protected ecological environment, offered a variety of activities, and had a highly developed society with a “Pakeha” culture. The research also indicated that Chinese cultural norms played an important role in the process of decision making, perception formation and interpretation. These norms included the desire of harmony, Li, Junzi Aspiration, and a respect of authorities. The results of the study also included details about travel patterns in dining, accommodation, and tourism activities. These results indicated that content analysis of visual and textual materials provides rich information about perceived destination image, travel preference, and online information search behaviours. Online photographs and narratives posted by visitors are not only valuable information source for potential visitors who read the blogs, but can also be an effective way to understand the Chinese market. Based on the results, it can be concluded that blogs are important, and point a way by which destination marketing organisations can seek to influence potential visitors. For example, blog celebrities are an effective way by which to attract thousands of readers to know more about the country. The use of the Chinese language and creating special arrangements for Chinese festivals are shown to be effective means by which hosts can display a friendly attitude to their Chinese guests. With more and more countries being granted Approved Destination Status (ADS) by the Chinese government, Chinese citizens have more choices as to where to travel overseas, thereby intensifying competition for their custom. It is vital for tourism destinations to promote their unique features through all possible channels according to different target markets. Additionally, because service quality is a crucial issue for group tourists, consistent monitoring the travel blogs is an effective way of facilitating the improvement of the service quality of tourism product suppliers

An Effective Approach to Predicting Large Dataset in Spatial Data Mining Area

Due to enormous quantities of spatial satellite images, telecommunication images, health related tools etc., it is often impractical for users to have detailed and thorough examination of spatial data (S). Large dataset is very common and pervasive in a number of application areas. Discovering or predicting patterns from these datasets is very vital. This research focused on developing new methods, models and techniques for accomplishing advanced spatial data mining (ASDM) tasks. The algorithms were designed to challenge state-of-the-art data technologies and they are tested with randomly generated and actual real-world data. Two main approaches were adopted to achieve the objectives (1) identifying the actual data types (DTs), data structures and spatial content of a given dataset (to make our model versatile and robust) and (2) integrating these data types into an appropriate database management system (DBMS) framework, for easy management and manipulation. These two approaches helped to discover the general and varying types of patterns that exist within any given dataset non-spatial, spatial or even temporal (because spatial data are always influenced by temporal agents) datasets. An iterative method was adopted for system development methodology in this study. The method was adopted as a strategy to combat the irregularity that often exists within spatial datasets. In the course of this study, some of the challenges we encountered which also doubled as current challenges facing spatial data mining includes: (a) time complexity in availing useful data for analysis, (b) time complexity in loading data to storage and (c) difficulties in discovering spatial, non-spatial and temporal correlations between different data objects. However, despite the above challenges, there are some opportunities that spatial data can benefit from including: Cloud computing, Spark technology, Parallelisation, and Bulk-loading methods. Techniques and application areas of spatial data mining (SDM) were identified and their strength and limitations were equally documented. Finally, new methods and algorithms for mining very large data of spatial/non-spatial bias were created. The proposed models/systems are documented in the sections as follows: (a) Development of a new technique for parallel indexing of large dataset (PaX-DBSCAN), (b) Development of new techniques for clustering (X-DBSCAN) in a learning process, (c) Development of a new technique for detecting human skin in an image, (d) Development of a new technique for finding face in an image, (e) Development of a novel technique for management of large spatial and non-spatial datasets (aX-tree). The most prominent among our methods is the new structure used in (c) above -- packed maintained k-dimensional tree (Pmkd-tree), for fast spatial indexing and querying. The structure is a combination system that combines all the proposed algorithms to produce one solid, standard, useful and quality system. The intention of the new final algorithm (system) is to combine the entire initial proposed algorithms to come up with one strong generic effective tool for predicting large dataset SDM area, which it is capable of finding patterns that exist among spatial or non-spatial objects in a DBMS. In addition to Pmkd-tree, we also implemented a novel spatial structure, packed quad-tree (Pquad-Tree), to balance and speed up the performance of the regular quad-tree. Our systems so far have shown a manifestation of efficiency in terms of performance, storage and speed. The final Systems (Pmkd-tree and Pquad-Tree) are generic systems that are flexible, robust, light and stable. They are explicit spatial models for analysing any given problem and for predicting objects as spatially distributed events, using basic SDM algorithms. They can be applied to pattern matching, image processing, computer vision, bioinformatics, information retrieval, machine learning (classification and clustering) and many other computational tasks

Learning from complex networks

Graph Theory has proven to be a universal language for describing modern complex systems. The elegant theoretical framework of graphs drew the researchers' attention over decades. Therefore, graphs have emerged as a ubiquitous data structure in various applications where a relational characteristic is evident. Graph-driven applications are found, e.g., in social network analysis, telecommunication networks, logistic processes, recommendation systems, modeling kinetic interactions in protein networks, or the 'Internet of Things' (IoT) where modeling billions of interconnected web-enabled devices is of paramount importance. This thesis dives deep into the challenges of modern graph applications. It proposes a robustified and accelerated spectral clustering model in homogeneous graphs and novel transformer-driven graph shell models for attributed graphs. A new data structure is introduced for probabilistic graphs to compute the information flow efficiently. Moreover, a metaheuristic algorithm is designed to find a good solution to an optimization problem composed of an extended vehicle routing problem. The thesis closes with an analysis of trend flows in social media data. Detecting communities within a graph is a fundamental data mining task of interest in virtually all areas and also serves as an unsupervised preprocessing step for many downstream tasks. One most the most well-established clustering methods is Spectral Clustering. However, standard spectral clustering is highly sensitive to noisy input data, and the eigendecomposition has a high, cubic runtime complexity O(n^3). Tackling one of these problems often exacerbates the other. This thesis presents a new model which accelerates the eigendecomposition step by replacing it with a Nyström approximation. Robustness is achieved by iteratively separating the data into a cleansed and noisy part of the data. In this process, representing the input data as a graph is vital to identify parts of the data being well connected by analyzing the vertices' distances in the eigenspace. With the advances in deep learning architectures, we also observe a surge in research on graph representation learning. The message-passing paradigm in Graph Neural Networks (GNNs) formalizes a predominant heuristic for multi-relational and attributed graph data to learn node representations. In downstream applications, we can use the representations to tackle theoretical problems known as node classification, graph classification/regression, and relation prediction. However, a common issue in GNNs is known as over-smoothing. By increasing the number of iterations within the message-passing, the nodes' representations of the input graph align and become indiscernible. This thesis shows an efficient way of relaxing the GNN architecture by employing a routing heuristic in the general workflow. Specifically, an additional layer routes the nodes' representations to dedicated experts. Each expert calculates the representations according to their respective GNN workflow. The definitions of distinguishable GNNs result from k-localized views starting from a central node. This procedure is referred to as Graph Shell Attention (SEA), where experts process different subgraphs in a transformer-motivated fashion. Reliable propagation of information through large communication networks, social networks, or sensor networks is relevant to applications concerning marketing, social analysis, or monitoring physical or environmental conditions. However, social ties of friendship may be obsolete, and communication links may fail, inducing the notion of uncertainty in such networks. This thesis addresses the problem of optimizing information propagation in uncertain networks given a constrained budget of edges. A specialized data structure, called F-tree, addresses two NP-hard subproblems: the computation of the expected information flow and the optimal choice of edges. The F-tree identifies independent components of a probabilistic input graph for which the information flow can either be computed analytically and efficiently or for which traditional Monte-Carlo sampling can be applied independently of the remaining network. The next part of the thesis covers a graph problem from the Operations Research point of view. A new variant of the well-known vehicle routing problem (VRP) is introduced, where customers are served within a specific time window (TW), as well as flexible delivery locations (FL) including capacity constraints. The latter implies that each customer is scheduled in one out of a set of capacitated delivery service locations. Practically, the VRPTW-FL problem is relevant for applications in parcel delivery, routing with limited parking space, or, for example, in the scope of hospital-wide scheduling of physical therapists. This thesis presents a metaheuristic built upon a hybrid Adaptive Large Neighborhood Search (ALNS). Moreover, a backtracking mechanism in the construction phase is introduced to alter unsatisfactory decisions at early stages. In the computational study, hospital data is used to evaluate the utility of flexible delivery locations and various cost functions. In the last part of the thesis, social media trends are analyzed, which yields insights into user sentiment and newsworthy topics. Such trends consist of bursts of messages concerning a particular topic within a time frame, significantly deviating from the average appearance frequency of the same subject. This thesis presents a method to classify trend archetypes to predict future dissemination by investigating the dissemination of such trends in space and time. Generally, with the ever-increasing scale and complexity of graph-structured datasets and artificial intelligence advances, AI-backed models will inevitably play an important role in analyzing, modeling, and enhancing knowledge extraction from graph data.Die Graphentheorie hat sich zur einer universellen Sprache entwickelt, mit Hilfe derer sich moderne und komplexe Systeme und Zusammenhänge beschreiben lassen. Diese theoretisch elegante und gut fundierte Rahmenstruktur attrahierte über Dekaden hinweg die Aufmerksamkeit von Wissenschaftlern/-innen. In der heutigen Informationstechnologie-Landschaft haben sich Graphen längst zu einer allgegenwärtigen Datenstruktur in Anwendungen etabliert, innerhalb derer charakteristische Zusammenhangskomponenten eine zentrale Rolle spielen. Anwendungen, die über Graphen unterstützt werden, finden sich u.a. in der Analyse von sozialen Netzwerken, Telekommunikationsnetwerken, logistische Prozessverwaltung, Analyse von Empfehlungsdiensten, in der Modellierung kinetischer Interaktionen von Proteinstrukturen, oder auch im "Internet der Dinge" (engl.: 'Internet Of Things' (IoT)), welches das Zusammenspiel von abermillionen web-unterstützte Endgeräte abbildet und eine prädominierende Rolle für große IT-Unternehmen spielt. Diese Dissertation beleuchtet die Herausforderungen moderner Graphanwendungen. Im Bereich homogener Netzwerken wird ein beschleunigtes und robustes spektrales Clusteringverfahren, sowie ein Modell zur Untersuchung von Teilgraphen mittels Transformer-Architekturen für attribuierte Graphen vorgestellt. Auf wahrscheinlichkeitsbasierten homogenen Netzwerken wird eine neue Datenstruktur eingeführt, die es erlaubt einen effizienten Informationsfluss innerhalb eines Graphen zu berechnen. Darüber hinaus wird ein Optimierungsproblem in Transportnetzwerken beleuchtet, sowie eine Untersuchung von Trendflüssen in sozialen Medien diskutiert. Die Untersuchung von Verbünden (engl.: 'Clusters') von Graphdaten stellt einen Eckpfeiler im Bereich der Datengewinnung dar. Die Erkenntnisse sind nahezu in allen praktischen Bereichen von Relevanz und dient im Bereich des unüberwachten Lernens als Vorverarbeitungsschritt für viele nachgeschaltete Aufgaben. Einer der weit verbreitetsten Methodiken zur Verbundanalyse ist das spektrale Clustering. Die Qualität des spektralen Clusterings leidet, wenn die Eingabedaten sehr verrauscht sind und darüber hinaus ist die Eigenwertzerlegung mit O(n^3) eine teure Operation und damit wesentlich für die hohe, kubische Laufzeitkomplexität verantwortlich. Die Optimierung von einem dieser Kriterien exazerbiert oftmals das verbleibende Kriterium. In dieser Dissertation wird ein neues Modell vorgestellt, innerhalb dessen die Eigenwertzerlegung über eine Nyström Annäherung beschleunigt wird. Die Robustheit wird über ein iteratives Verfahren erreicht, das die gesäuberten und die verrauschten Daten voneinander trennt. Die Darstellung der Eingabedaten über einen Graphen spielt hierbei die zentrale Rolle, die es erlaubt die dicht verbundenen Teile des Graphen zu identifizieren. Dies wird über eine Analyse der Distanzen im Eigenraum erreicht. Parallel zu neueren Erkenntnissen im Bereich des Deep Learnings lässt sich auch ein Forschungsdrang im repräsentativen Lernen von Graphen erkennen. Graph Neural Networks (GNN) sind eine neue Unterform von künstlich neuronalen Netzen (engl.: 'Artificial Neural Networks') auf der Basis von Graphen. Das Paradigma des sogenannten 'message-passing' in neuronalen Netzen, die auf Graphdaten appliziert werden, hat sich hierbei zur prädominierenden Heuristik entwickelt, um Vektordarstellungen von Knoten aus (multi-)relationalen, attribuierten Graphdaten zu lernen. Am Ende der Prozesskette können wir somit theoretische Probleme angehen und lösen, die sich mit Fragestellungen über die Klassifikation von Knoten oder Graphen, über regressive Ausdrucksmöglichkeiten bis hin zur Vorhersage von relationaler Verbindungen beschäftigen. Ein klassisches Problem innerhalb graphischer neuronaler Netze ist bekannt unter der Terminologie des 'over-smoothing' (dt.: 'Überglättens'). Es beschreibt, dass sich mit steigender Anzahl an Iterationen des wechselseitigen Informationsaustausches, die Knotenrepräsentationen im vektoriellen Raum angleichen und somit nicht mehr unterschieden werden können. In dieser Forschungsarbeit wird eine effiziente Methode vorgestellt, die die klassische GNN Architektur aufbricht und eine Vermittlerschicht in den herkömmlichen Verarbeitungsfluss einarbeitet. Konkret gesprochen werden hierbei Knotenrepräsentationen an ausgezeichnete Experten geschickt. Jeder Experte verarbeitet auf idiosynkratischer Basis die Knoteninformation. Ausgehend von einem Anfrageknoten liegt das Kriterium für die Unterscheidbarkeit von Experten in der restriktiven Verarbeitung lokaler Information. Diese neue Heuristik wird als 'Graph Shell Attention' (SEA) bezeichnet und beschreibt die Informationsverarbeitung unterschiedlicher Teilgraphen von Experten unter der Verwendung der Transformer-technologie. Eine zuverlässige Weiterleitung von Informationen über größere Kommunikationsnetzwerken, sozialen Netzwerken oder Sensorennetzwerken spielen eine wichtige Rolle in Anwendungen der Marktanalyse, der Analyse eines sozialen Gefüges, oder der Überwachung der physischen und umweltorientierten Bedingungen. Innerhalb dieser Anwendungen können Fälle auftreten, wo Freundschaftsbeziehungen nicht mehr aktuell sind, wo die Kommunikation zweier Endpunkte zusammenbricht, welches mittels einer Unsicherheit des Informationsaustausches zweier Endpunkte ausgedrückt werden kann. Diese Arbeit untersucht die Optimierung des Informationsflusses in Netzwerken, deren Verbindungen unsicher sind, hinsichtlich der Bedingung, dass nur ein Bruchteil der möglichen Kanten für den Informationsaustausch benutzt werden dürfen. Eine eigens entwickelte Datenstruktur - der F-Baum - wird eingeführt, die 2 NP-harte Teilprobleme auf einmal adressiert: zum einen die Berechnung des erwartbaren Informationsflusses und zum anderen die Auswahl der optimalen Kanten. Der F-Baum unterscheidet hierbei unabhängige Zusammenhangskomponenten der wahrscheinlichkeitsbasierten Eingabedaten, deren Informationsfluss entweder analytisch korrekt und effizient berechnet werden können, oder lokal über traditionelle Monte-Carlo sampling approximiert werden können. Der darauffolgende Abschnitt dieser Arbeit befasst sich mit einem Graphproblem aus Sicht der Optimierungsforschung angewandter Mathematik. Es wird eine neue Variante der Tourenplanung vorgestellt, welches neben kundenspezifischer Zeitfenster auch flexible Zustellstandorte beinhaltet. Darüber hinaus obliegt den Zielorten, an denen Kunden bedient werden können, weiteren Kapazitätslimitierungen. Aus praktischer Sicht ist das VRPTW-FL (engl.: "Vehicle Routing Problem with Time Windows and Flexible Locations") eine bedeutende Problemstellung für Paketdienstleister, Routenplanung mit eingeschränkten Stellplätzen oder auch für die praktische Planung der Arbeitsaufteilung von behandelnden Therapeuten/-innen und Ärzten/-innen in einem Krankenhaus. In dieser Arbeit wird für die Bewältigung dieser Problemstellung eine Metaheuristik vorgestellt, die einen hybriden Ansatz mit der sogenannten Adaptive Large Neighborhood Search (ALNS) impliziert. Darüber hinaus wird als Konstruktionsheuristik ein 'Backtracking'-Mechanismus (dt.: Rückverfolgung) angewandt, um initiale Startlösungen aus dem Lösungssuchraum auszuschließen, die weniger vielversprechend sind. In der Evaluierung dieses neuen Ansatz werden Krankenhausdaten untersucht, um auch die Nützlichkeit von flexiblen Zielorten unter verschiedenen Kostenfunktionen herauszuarbeiten. Im letzten Kapitel dieser Dissertation werden Trends in sozialen Daten analysiert, die Auskunft über die Stimmung der Benutzer liefern, sowie Einblicke in tagesaktuelle Geschehnisse gewähren. Ein Kennzeichen solcher Trends liegt in dem Aufbraußen von inhaltsspezifischen Themen innerhalb eines Zeitfensters, die von der durchschnittlichen Erscheinungshäufigkeit desselben Themas signifikant abweichen. Die Untersuchung der Verbreitung solches Trends über die zeitliche und örtliche Dimension erlaubt es, Trends in Archetypen zu klassifizieren, um somit die Ausbreitung zukünftiger Trends hervorzusagen. Mit der immerwährenden Skalierung von Graphdaten und deren Komplexität, und den Fortschritten innerhalb der künstlichen Intelligenz, wird das maschinelle Lernen unweigerlich weiterhin eine wesentliche Rolle spielen, um Graphdaten zu modellieren, analysieren und schlussendlich die Wissensextraktion aus derartigen Daten maßgeblich zu fördern.La théorie des graphes s'est révélée être une langue universel pour décrire les systèmes complexes modernes. L'élégant cadre théorique des graphes a attiré l'attention des chercheurs pendant des décennies. Par conséquent, les graphes sont devenus une structure de données omniprésente dans diverses applications où une caractéristique relationnelle est évidente. Les applications basées sur les graphes se retrouvent, par exemple, dans l'analyse des réseaux sociaux, les réseaux de télécommunication, les processus logistiques, les systèmes de recommandation, la modélisation des interactions cinétiques dans les réseaux de protéines, ou l'"Internet des objets" (IoT) où la modélisation de milliards de dispositifs interconnectés basés sur le web est d'une importance capitale. Cette thèse se penche sur les défis posés par les applications modernes des graphes. Elle propose un modèle de regroupement spectral robuste et accéléré dans les graphes homogènes et de nouveaux modèles d'enveloppe de graphe pilotés par transformateur pour les graphes attribués. Une nouvelle structure de données est introduite pour les graphes probabilistes afin de calculer efficacement le flux d'informations. De plus, un algorithme métaheuristique est conçu pour trouver une bonne solution à un problème d'optimisation composé d'un problème étendu de routage de véhicules. La thèse se termine par une analyse des flux de tendances dans les données des médias sociaux. La détection de communautés au sein d'un graphe est une tâche fondamentale d'exploration de données qui présente un intérêt dans pratiquement tous les domaines et sert également d'étape de prétraitement non supervisé pour de nombreuses tâches en aval. L'une des méthodes de regroupement les mieux établies est le regroupement spectral. Cependant, le regroupement spectral standard est très sensible aux données d'entrée bruitées, et l'eigendecomposition a une complexité d'exécution cubique élevée O(n^3). S'attaquer à l'un de ces problèmes exacerbe souvent l'autre. Cette thèse présente un nouveau modèle qui accélère l'étape d'eigendecomposition en la remplaçant par une approximation de Nyström. La robustesse est obtenue en séparant itérativement les données en une partie nettoyée et une partie bruyante. Dans ce processus, la représentation des données d'entrée sous forme de graphe est essentielle pour identifier les parties des données qui sont bien connectées en analysant les distances des sommets dans l'espace propre. Avec les progrès des architectures de Deep Learning, nous observons également une poussée de la recherche sur l'apprentissage de la représentation graphique. Le paradigme du passage de messages dans les réseaux neuronaux graphiques (GNN) formalise une heuristique prédominante pour les données graphiques multi-relationnelles et attribuées afin d'apprendre les représentations des nœuds. Dans les applications en aval, nous pouvons utiliser les représentations pour résoudre des problèmes théoriques tels que la classification des nœuds, la classification/régression des graphes et la prédiction des relations. Cependant, un problème courant dans les GNN est connu sous le nom de lissage excessif. En augmentant le nombre d'itérations dans le passage de messages, les représentations des nœuds du graphe d'entrée s'alignent et deviennent indiscernables. Cette thèse montre un moyen efficace d'assouplir l'architecture GNN en employant une heuristique de routage dans le flux de travail général. Plus précisément, une couche supplémentaire achemine les représentations des nœuds vers des experts spécialisés. Chaque expert calcule les représentations en fonction de son flux de travail GNN respectif. Les définitions de GNN distincts résultent de k vues localisées à partir d'un nœud central. Cette procédure est appelée Graph Shell Attention (SEA), dans laquelle les experts traitent différents sous-graphes à l'aide d'un transformateur. La propagation fiable d'informations par le biais de grands réseaux de communication, de réseaux sociaux ou de réseaux de capteurs est importante pour les applications concernant le marketing, l'analyse sociale ou la surveillance des conditions physiques ou environnementales. Cependant, les liens sociaux d'amitié peuvent être obsolètes, et les liens de communication peuvent échouer, induisant la notion d'incertitude dans de tels réseaux. Cette thèse aborde le problème de l'optimisation de la propagation de l'information dans les réseaux incertains compte tenu d'un budget contraint d'arêtes. Une structure de données spécialisée, appelée F-tree, traite deux sous-problèmes NP-hard: le calcul du flux d'information attendu et le choix optimal des arêtes. L'arbre F identifie les composants indépendants d'un graphe d'entrée probabiliste pour lesquels le flux d'informations peut être calculé analytiquement et efficacement ou pour lesquels l'échantillonnage Monte-Carlo traditionnel peut être appliqué indépendamment du reste du réseau. La partie suivante de la thèse couvre un problème de graphe du point de vue de la recherche opérationnelle. Une nouvelle variante du célèbre problème d'acheminement par véhicule (VRP) est introduite, où les clients sont servis dans une fenêtre temporelle spécifique (TW), ainsi que des lieux de livraison flexibles (FL) incluant des contraintes de capacité. Ces dernières impliquent que chaque client est programmé dans l'un des emplacements de service de livraison à capacité. En pratique, le problème VRPTW-FL est pertinent pour des applications de livraison de colis, d'acheminement avec un espace de stationnement limité ou, par exemple, dans le cadre de la programmation de kinésithérapeutes à l'échelle d'un hôpital. Cette thèse présente une métaheuristique construite sur une recherche hybride de grands voisinages adaptatifs (ALNS). En outre, un mécanisme de retour en arrière dans la phase de construction est introduit pour modifier les décisions insatisfaisantes à des stades précoces. Dans l'étude computationnelle, des données hospitalières sont utilisées pour évaluer l'utilité de lieux de livraison flexibles et de diverses fonctions de coût. Dans la dernière partie de la thèse, les tendances des médias sociaux sont analysées, ce qui donne un aperçu du sentiment des utilisateurs et des sujets d'actualité. Ces tendances consistent en des rafales de messages concernant un sujet particulier dans un laps de temps donné, s'écartant de manière significative de la fréquence moyenne d'apparition du même sujet. Cette thèse présente une méthode de classification des archétypes de tendances afin de prédire leur diffusion future en étudiant la diffusion de ces tendances dans l'espace et dans le temps. D'une manière générale, avec l'augmentation constante de l'échelle et de la complexité des ensembles de données structurées en graphe et les progrès de l'intelligence artificielle, les modèles soutenus par l'IA joueront inévitablement un rôle important dans l'analyse, la modélisation et l'amélioration de l'extraction de connaissances à partir de données en graphe

Contributions to multimedia adaptation within the MPEG-21 framework

Tesis doctoral inédita. Universidad Autónoma de Madrid, Escuela Politécnica Superior, octubre de 201

Liveability analysis of gated and non-gated low middle income communities in kuala lumpur, Malaysia

The aim of this paper is to examine the liveability conditions in gated and non-gated low middle income communities in Kuala Lumpur where rapid urban growth has led to many disruptions in the urban living environment. Hence, a livability framework was developed with dimensions from housing condition, economic condition, functional environment, social relations and community safety towards achieving the research objectives of – a) to study the liveability level in gated and non-gated communities, b) to compare the level of liveability between gated and non-gated communities, and c) to determine the dimensions and indicators which influence the level of liveability in both communities. Residents’ views were collected through a questionnaire survey which consisted of twenty-four indicators of liveability belonging to five dimensions from three communities in Kuala Lumpur. Two communities belong to non-gated and one community had gated living status. The findings of the research revealed that gated community has a better living conditions compared to the non-gated community. Thus, this research can be used as a turning point to improve the living environment of both gated and non-gated communit

Music 2025 : The Music Data Dilemma: issues facing the music industry in improving data management

© Crown Copyright 2019Music 2025ʼ investigates the infrastructure issues around the management of digital data in an increasingly stream driven industry. The findings are the culmination of over 50 interviews with high profile music industry representatives across the sector and reflects key issues as well as areas of consensus and contrasting views. The findings reveal whilst there are great examples of data initiatives across the value chain, there are opportunities to improve efficiency and interoperability