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1. Towards Bridging Generalization and Expressivity of Graph Neural Networks

Author

Li, Shouheng, Geerts, Floris, Kim, Dongwoo, and Wang, Qing

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

Expressivity and generalization are two critical aspects of graph neural networks (GNNs). While significant progress has been made in studying the expressivity of GNNs, much less is known about their generalization capabilities, particularly when dealing with the inherent complexity of graph-structured data. In this work, we address the intricate relationship between expressivity and generalization in GNNs. Theoretical studies conjecture a trade-off between the two: highly expressive models risk overfitting, while those focused on generalization may sacrifice expressivity. However, empirical evidence often contradicts this assumption, with expressive GNNs frequently demonstrating strong generalization. We explore this contradiction by introducing a novel framework that connects GNN generalization to the variance in graph structures they can capture. This leads us to propose a $k$-variance margin-based generalization bound that characterizes the structural properties of graph embeddings in terms of their upper-bounded expressive power. Our analysis does not rely on specific GNN architectures, making it broadly applicable across GNN models. We further uncover a trade-off between intra-class concentration and inter-class separation, both of which are crucial for effective generalization. Through case studies and experiments on real-world datasets, we demonstrate that our theoretical findings align with empirical results, offering a deeper understanding of how expressivity can enhance GNN generalization., Comment: 17 pages, 2 figures, 2 tables

Published
2024

2. A note on the VC dimension of 1-dimensional GNNs

Author

Daniëls, Noah and Geerts, Floris

Subjects
Computer Science - Machine Learning
Abstract

Graph Neural Networks (GNNs) have become an essential tool for analyzing graph-structured data, leveraging their ability to capture complex relational information. While the expressivity of GNNs, particularly their equivalence to the Weisfeiler-Leman (1-WL) isomorphism test, has been well-documented, understanding their generalization capabilities remains critical. This paper focuses on the generalization of GNNs by investigating their Vapnik-Chervonenkis (VC) dimension. We extend previous results to demonstrate that 1-dimensional GNNs with a single parameter have an infinite VC dimension for unbounded graphs. Furthermore, we show that this also holds for GNNs using analytic non-polynomial activation functions, including the 1-dimensional GNNs that were recently shown to be as expressive as the 1-WL test. These results suggest inherent limitations in the generalization ability of even the most simple GNNs, when viewed from the VC dimension perspective., Comment: 10 pages

Published
2024

3. Data Management in the Noisy Intermediate-Scale Quantum Era

Author

Hai, Rihan, Hung, Shih-Han, Coopmans, Tim, and Geerts, Floris

Subjects
Quantum Physics, Computer Science - Databases
Abstract

Quantum computing has emerged as a promising tool for transforming the landscape of computing technology. Recent efforts have applied quantum techniques to classical database challenges, such as query optimization, data integration, index selection, and transaction management. In this paper, we shift focus to a critical yet underexplored area: data management for quantum computing. We are currently in the Noisy Intermediate-Scale Quantum (NISQ) era, where qubits, while promising, are fragile and still limited in scale. After differentiating quantum data from classical data, we outline current and future data management paradigms in the NISQ era and beyond. We address the data management challenges arising from the emerging demands of near-term quantum computing. Our goal is to chart a clear course for future quantum-oriented data management research, establishing it as a cornerstone for the advancement of quantum computing in the NISQ era., Comment: This vision paper is crafted to be accessible to a broad audience. We welcome any questions, feedback, or suggestions. Please feel free to reach out to us

Published
2024

4. Thermoelectric Properties of Benzothieno-Benzothiophene Self-Assembled Monolayers in Molecular Junctions

Author

Gonzalez-Casal, Sergio, Jouclas, Rémy, Arbouch, Imane, Geerts, Yves, van Dyck, Colin, Cornil, Jérôme, and Vuillaume, Dominique

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics
Abstract

We report a combined experimental (C-AFM and SThM) and theoretical (DFT) study of the thermoelectric properties of molecular junctions made of self-assembled monolayers on Au of thiolated benzothieno-benzothiophene (BTBT) and alkylated BTBT derivatives (C8-BTBT-C8). We measure the thermal conductance per molecule at 15 pW/K and 8.8 pW/K, respectively, among the lowest values for molecular junctions so far reported (10-50 pW/K). The lower thermal conductance for C8-BTBT-C8 is consistent with two interfacial thermal resistances introduced by the alkyl chains, which reduce the phononic thermal transport in the molecular junction. The Seebeck coefficients are 36 {\mu}V/K and 245 {\mu}V/K, respectively, the latter due to the weak coupling of the core BTBT with the electrodes. We deduce a thermoelectric figure of merit ZT up to ca. 1E-4 for the BTBT molecular junctions at 300K, on a par with the values reported for archetype molecular junctions (olygo(phenylene ethynylene) derivatives)., Comment: Full paper and supporting information

Published
2024

6. Weisfeiler-Leman at the margin: When more expressivity matters

Author

Franks, Billy J., Morris, Christopher, Velingker, Ameya, and Geerts, Floris

Subjects
Computer Science - Machine Learning, Computer Science - Discrete Mathematics, Computer Science - Neural and Evolutionary Computing, Statistics - Machine Learning
Abstract

The Weisfeiler-Leman algorithm ($1$-WL) is a well-studied heuristic for the graph isomorphism problem. Recently, the algorithm has played a prominent role in understanding the expressive power of message-passing graph neural networks (MPNNs) and being effective as a graph kernel. Despite its success, $1$-WL faces challenges in distinguishing non-isomorphic graphs, leading to the development of more expressive MPNN and kernel architectures. However, the relationship between enhanced expressivity and improved generalization performance remains unclear. Here, we show that an architecture's expressivity offers limited insights into its generalization performance when viewed through graph isomorphism. Moreover, we focus on augmenting $1$-WL and MPNNs with subgraph information and employ classical margin theory to investigate the conditions under which an architecture's increased expressivity aligns with improved generalization performance. In addition, we show that gradient flow pushes the MPNN's weights toward the maximum margin solution. Further, we introduce variations of expressive $1$-WL-based kernel and MPNN architectures with provable generalization properties. Our empirical study confirms the validity of our theoretical findings., Comment: Accepted at ICML 2024. arXiv admin note: text overlap with arXiv:2301.11039

Published
2024

8. A Neuro-Symbolic Framework for Answering Graph Pattern Queries in Knowledge Graphs

Author

Cucumides, Tamara, Daza, Daniel, Barceló, Pablo, Cochez, Michael, Geerts, Floris, Reutter, Juan L, and Romero, Miguel

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Databases
Abstract

The challenge of answering graph queries over incomplete knowledge graphs is gaining significant attention in the machine learning community. Neuro-symbolic models have emerged as a promising approach, combining good performance with high interpretability. These models utilize trained architectures to execute atomic queries and integrate modules that mimic symbolic query operators. However, most neuro-symbolic query processors are constrained to tree-like graph pattern queries. These queries admit a bottom-up execution with constant values or anchors at the leaves and the target variable at the root. While expressive, tree-like queries fail to capture critical properties in knowledge graphs, such as the existence of multiple edges between entities or the presence of triangles. We introduce a framework for answering arbitrary graph pattern queries over incomplete knowledge graphs, encompassing both cyclic queries and tree-like queries with existentially quantified leaves. These classes of queries are vital for practical applications but are beyond the scope of most current neuro-symbolic models. Our approach employs an approximation scheme that facilitates acyclic traversals for cyclic patterns, thereby embedding additional symbolic bias into the query execution process. Our experimental evaluation demonstrates that our framework performs competitively on three datasets, effectively handling cyclic queries through our approximation strategy. Additionally, it maintains the performance of existing neuro-symbolic models on anchored tree-like queries and extends their capabilities to queries with existentially quantified variables.

Published
2023

12. Prediction of emergency department presentations for acute coronary syndrome using a machine learning approach

Author

Vincent C. Kurucz, Jimmy Schenk, Denise P. Veelo, Bart F. Geerts, Alexander P. J. Vlaar, and Björn J. P. Van Der Ster

Subjects
Medicine, Science
Abstract

Abstract The relationship between weather and acute coronary syndrome (ACS) incidence has been the subject of considerable research, with varying conclusions. Harnessing machine learning techniques, our study explores the relationship between meteorological factors and ACS presentations in the emergency department (ED), offering insights into seasonal variations and inter-day fluctuations to optimize patient care and resource allocation. A retrospective cohort analysis was conducted, encompassing ACS presentations to Dutch EDs from 2010 to 2017. Temporal patterns were analyzed using heat-maps and time series plots. Multivariable linear regression (MLR) and Random Forest (RF) regression models were employed to forecast daily ACS presentations with prediction horizons of one, three, seven, and thirty days. Model performance was assessed using the coefficient of determination (R²), Mean Absolute Error (MAE), and Mean Absolute Percentage Error (MAPE). The study included 214,953 ACS presentations, predominantly unstable angina (UA) (94,272; 44%), non-ST-elevated myocardial infarction (NSTEMI) (78,963; 37%), and ST-elevated myocardial infarction (STEMI) (41,718; 19%). A decline in daily ACS admissions over time was observed, with notable inter-day (estimated median difference: 41 (95%CI = 37–43, p =

Published
2024
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20. Transiently delocalized states enhance hole mobility in organic molecular semiconductors

Author

Giannini, Samuele, Di Virgilio, Lucia, Bardini, Marco, Hausch, Julian, Geuchies, Jaco, Zheng, Wenhao, Volpi, Martina, Elsner, Jan, Broch, Katharina, Geerts, Yves H., Schreiber, Frank, Schweicher, Guillaume, Wang, Hai I., Blumberger, Jochen, Bonn, Mischa, and Beljonne, David

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Materials Science
Abstract

There is compelling evidence that charge carriers in organic semiconductors (OSs) self-localize in nano-scale space because of dynamic disorder. Yet, some OSs, in particular recently emerged high-mobility organic molecular crystals, feature reduced mobility at increasing temperature, a hallmark for delocalized band transport. Here we present the temperature-dependent mobility in two record-mobility OSs: DNTT (dinaphtho[2,3-b:2',3'-f]thieno[3,2-b]-thiophene), and its alkylated derivative, C8-DNTT-C8. By combining terahertz photoconductivity measurements with fully atomistic non-adiabatic molecular dynamics simulations, we show that while both crystals display a power-law decrease of the mobility (\mu) with temperature (T, following: \mu \propto T^(-n)), the exponent n differs substantially. Modelling provides n values in good agreement with experiments and reveals that the differences in the falloff parameter between the two chemically closely related semiconductors can be traced to the delocalization of the different states thermally accessible by charge carriers, which in turn depends on the specific electronic band structure of the two systems. The emerging picture is that of holes surfing on a dynamic manifold of vibrationally-dressed extended states with a temperature-dependent mobility that provides a sensitive fingerprint for the underlying density of states., Comment: 28 pages, 5 Figures

Published
2023

21. Occipital nerve stimulation for cluster headache: lessons to learn from the ‘voltage tuners’

Author

Linda Kollenburg, H. Arnts, M. Heitkamp, S. Geerts, C. Robinson, M. Dominguez, W. Mulleners, and E. Kurt

Subjects
Occipital nerve stimulation, Cluster headache, Voltage, Amplitude, Voltage tuner, Voltage tuning, Medicine
Abstract

Abstract Background Cluster headache (CH) is a significant health concern due to its major socioeconomic consequences and most patients being refractory to conventional strategies. For treatment resistant CH, occipital nerve stimulation (ONS) is considered an effective treatment option. Whereas most patients do not adjust the amplitude of the ONS system, a subset changes the amplitude on a regular basis using their remote control, and are therefore referred to as ‘voltage tuners’. Anxiety and self-control are thought to be central themes to this behavior. Research on this voltage tuning behavior could provide new insights in the use of ONS as acute attack treatment. To date, voltage tuning has not been assessed for CH. Hence this is a unique study aiming to investigate the occurrence and efficacy of voltage tuning in patients with CH and ONS. Methods For this analysis, patients with CH who received ONS from 2020–2024, at our university medical center, were included. All patients underwent bilateral ONS implantation. Data on attack frequency, intensity and duration were collected retrospectively. Outcomes on the response, frequency, moment during the day, duration, rationale, sensation, average increase in amplitude, and efficacy of voltage tuning were collected with prospective interviews. Results Thirty-three patients (M = 20) (42 ± 12.7 years) were included in the current analysis. At 1y follow-up, an overall response rate of 70% (23/33) was found for ONS. In total, 48% (18/33) of patients were defined as voltage tuners. Voltage tuning was performed with an average increase in amplitude of 92 (20–360)%, a frequency of 1–20 times/month and duration of 20 minutes-48 hours. Sensations of voltage tuning were described as “tingling” and/or “pinching”. The rationale for voltage tuning in patients varied from prevention and ceasing to lowering the intensity and enhance control of CH attack. Conclusions Outcomes show that voltage tuning may cease and/or terminate CH attacks and therefore raise interests in the use of ONS as acute attack treatment for patients with resistant CH treated with ONS. Future research on the occurrence and potential of voltage tuning will provide valuable insights for achieving optimal efficacy of ONS and quality of life in patients with CH.

Published
2024
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22. WL meet VC

Author

Morris, Christopher, Geerts, Floris, Tönshoff, Jan, and Grohe, Martin

Subjects
Computer Science - Machine Learning, Computer Science - Discrete Mathematics, Computer Science - Data Structures and Algorithms, Computer Science - Neural and Evolutionary Computing, Statistics - Machine Learning
Abstract

Recently, many works studied the expressive power of graph neural networks (GNNs) by linking it to the $1$-dimensional Weisfeiler--Leman algorithm ($1\text{-}\mathsf{WL}$). Here, the $1\text{-}\mathsf{WL}$ is a well-studied heuristic for the graph isomorphism problem, which iteratively colors or partitions a graph's vertex set. While this connection has led to significant advances in understanding and enhancing GNNs' expressive power, it does not provide insights into their generalization performance, i.e., their ability to make meaningful predictions beyond the training set. In this paper, we study GNNs' generalization ability through the lens of Vapnik--Chervonenkis (VC) dimension theory in two settings, focusing on graph-level predictions. First, when no upper bound on the graphs' order is known, we show that the bitlength of GNNs' weights tightly bounds their VC dimension. Further, we derive an upper bound for GNNs' VC dimension using the number of colors produced by the $1\text{-}\mathsf{WL}$. Secondly, when an upper bound on the graphs' order is known, we show a tight connection between the number of graphs distinguishable by the $1\text{-}\mathsf{WL}$ and GNNs' VC dimension. Our empirical study confirms the validity of our theoretical findings., Comment: Accepted at ICML 2023. arXiv admin note: text overlap with arXiv:2206.11168

Published
2023

24. Automated Identification of Postoperative Infections to Allow Prediction and Surveillance Based on Electronic Health Record Data: Scoping Review

Author

Siri Lise van der Meijden, Anna M van Boekel, Harry van Goor, Rob GHH Nelissen, Jan W Schoones, Ewout W Steyerberg, Bart F Geerts, Mark GJ de Boer, and M Sesmu Arbous

Subjects
Computer applications to medicine. Medical informatics, R858-859.7
Abstract

BackgroundPostoperative infections remain a crucial challenge in health care, resulting in high morbidity, mortality, and costs. Accurate identification and labeling of patients with postoperative bacterial infections is crucial for developing prediction models, validating biomarkers, and implementing surveillance systems in clinical practice. ObjectiveThis scoping review aimed to explore methods for identifying patients with postoperative infections using electronic health record (EHR) data to go beyond the reference standard of manual chart review. MethodsWe performed a systematic search strategy across PubMed, Embase, Web of Science (Core Collection), the Cochrane Library, and Emcare (Ovid), targeting studies addressing the prediction and fully automated surveillance (ie, without manual check) of diverse bacterial infections in the postoperative setting. For prediction modeling studies, we assessed the labeling methods used, categorizing them as either manual or automated. We evaluated the different types of EHR data needed for the surveillance and labeling of postoperative infections, as well as the performance of fully automated surveillance systems compared with manual chart review. ResultsWe identified 75 different methods and definitions used to identify patients with postoperative infections in studies published between 2003 and 2023. Manual labeling was the predominant method in prediction modeling research, 65% (49/75) of the identified methods use structured data, and 45% (34/75) use free text and clinical notes as one of their data sources. Fully automated surveillance systems should be used with caution because the reported positive predictive values are between 0.31 and 0.76. ConclusionsThere is currently no evidence to support fully automated labeling and identification of patients with infections based solely on structured EHR data. Future research should focus on defining uniform definitions, as well as prioritizing the development of more scalable, automated methods for infection detection using structured EHR data.

Published
2024
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25. External validation of the IAIHG autoimmune hepatitis response criteria in a multicentric real-world cohort

Author

Lorenz Grossar, Sarah Raevens, Christophe Van Steenkiste, Isabelle Colle, Charlotte De Vloo, Hans Orlent, Jeoffrey Schouten, Marie Gallant, Annelien Van Driessche, Sander Lefere, Lindsey Devisscher, Anja Geerts, Hans Van Vlierberghe, and Xavier Verhelst

Subjects
autoimmune hepatitis, surrogate endpoints, primary endpoints –validation, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Background & Aims: The goal of treatment in autoimmune hepatitis (AIH) is induction of remission to prevent the development of liver fibrosis, cirrhosis, and its related complications. Various definitions of treatment response and remission have been used. The International Autoimmune Hepatitis Group (IAIHG) recently defined consensus criteria for treatment response. We aimed to validate the IAIHG response criteria in our cohort and establish correlations with survival endpoints. Methods: We performed a retrospective, multicentric cohort study in one tertiary and seven secondary care centres in Belgium. Eligible patients were at least 18 years of age at data collection and were diagnosed with AIH by a simplified IAIHG score of ≥6. Complete biochemical response (CBR) was defined according to the IAIHG consensus criteria as normalisation of transaminases and serum IgG within the first 6 months of treatment. The primary endpoint was liver-related survival – defined as freedom from liver-related death or liver transplantation. Secondary endpoints were overall mortality and transplant-free survival. Outcomes were compared between patients attaining CBR and those with insufficient response. Results: Biochemical response status could be determined in 200 patients with AIH: CBR was achieved in 128 (64.0%) individuals. Patients not achieving CBR more frequently presented with cirrhosis on initial histology (22.2% vs. 10.9%, p = 0.036). Liver-related mortality or liver transplantation as a primary outcome occurred in 26 patients (13.0%). Patients achieving CBR exhibited superior liver-related (hazard ratio 0.118; 95% CI 0.052-0.267; p

Published
2024
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27. High-throughput analysis of the Trypanosoma cruzi minicirculome (mcDNA) unveils structural variation and functional diversity

Author

Andrés Gómez-Palacio, Lissa Cruz-Saavedra, Frederik Van den Broeck, Manon Geerts, Sebastián Pita, Gustavo A. Vallejo, Julio C. Carranza, and Juan David Ramírez

Subjects
Trypanosoma cruzi, Maxicircles, Minicircles, kDNA, Guide RNA, Colombia, Medicine, Science
Abstract

Abstract Trypanosoma cruzi causes Chagas disease and has a unique extranuclear genome enclosed in a structure called the kinetoplast, which contains circular genomes known as maxi- and minicircles. While the structure and function of maxicircles are well-understood, many aspects of minicircles remain to be discovered. Here, we performed a high-throughput analysis of the minicirculome (mcDNA) in 50 clones isolated from Colombia’s diverse T. cruzi I populations. Results indicate that mcDNA comprises four diverse subpopulations with different structures, lengths, and numbers of interspersed semi-conserved (previously termed ultra-conserved regions mHCV) and hypervariable (mHVPs) regions. Analysis of mcDNA ancestry and inter-clone differentiation indicates the interbreeding of minicircle sequence classes is placed along diverse strains and hosts. These results support evidence of the multiclonal dynamics and random bi-parental segregation. Finally, we disclosed the guide RNA repertoire encoded by mcDNA at a clonal scale, and several attributes of its abundance and function are discussed.

Published
2024
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28. Ordered Subgraph Aggregation Networks

Author

Qian, Chendi, Rattan, Gaurav, Geerts, Floris, Morris, Christopher, and Niepert, Mathias

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Data Structures and Algorithms, Computer Science - Neural and Evolutionary Computing, Statistics - Machine Learning
Abstract

Numerous subgraph-enhanced graph neural networks (GNNs) have emerged recently, provably boosting the expressive power of standard (message-passing) GNNs. However, there is a limited understanding of how these approaches relate to each other and to the Weisfeiler-Leman hierarchy. Moreover, current approaches either use all subgraphs of a given size, sample them uniformly at random, or use hand-crafted heuristics instead of learning to select subgraphs in a data-driven manner. Here, we offer a unified way to study such architectures by introducing a theoretical framework and extending the known expressivity results of subgraph-enhanced GNNs. Concretely, we show that increasing subgraph size always increases the expressive power and develop a better understanding of their limitations by relating them to the established $k\text{-}\mathsf{WL}$ hierarchy. In addition, we explore different approaches for learning to sample subgraphs using recent methods for backpropagating through complex discrete probability distributions. Empirically, we study the predictive performance of different subgraph-enhanced GNNs, showing that our data-driven architectures increase prediction accuracy on standard benchmark datasets compared to non-data-driven subgraph-enhanced graph neural networks while reducing computation time., Comment: Accepted at NeurIPS 2022. Fixed link to code repository

Published
2022

29. Eticista digital

Author

Moises Rockembach and David Geerts

Subjects
Ética digital, profissionais da informação, proteção de dados, inteligência artificial, History of Portugal, DP501-900.22, History (General), D1-2009
Abstract

A ética digital constitui-se em um função emergente nas organizações e requer a atenção de investigadores, decisores políticos, bem como profissionais da informação. Nesse sentido, o estudo aqui apresentado busca fornecer uma análise crítica das publicações sobre ética digital nos últimos 15 anos, além de pesquisa documental, com o objetivo de identificar questões relevantes e áreas onde a investigação e o desenvolvimento de práticas éticas são necessárias. O estudo procura contribuir para a construção de abordagens éticas para as tecnologias digitais, uma vez que as mudanças tecnológicas continuam a ter um impacto cada vez mais significativo em nossas vidas.

Published
2024
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32. Phonon-phonon interactions in the polarizarion dependence of Raman scattering

Author

Benshalom, Nimrod, Asher, Maor, Jouclas, Rémy, Korobko, Roman, Schweicher, Guillaume, Liu, Jie, Geerts, Yves, Hellman, Olle, and Yaffe, Omer

Subjects
Condensed Matter - Materials Science
Abstract

We have found that the polarization dependence of Raman scattering in organic crystals at finite temperatures can only be described by a fourth-rank formalism. This generalization of the second-rank Raman tensor $\mathcal{R}$ stems from the effect of off-diagonal components in the crystal self-energy on the light scattering mechanism. We thus establish a novel manifestation of phonon-phonon interaction in inelastic light scattering, markedly separate from the better-known phonon lifetime.

Published
2022

33. Expressiveness and Approximation Properties of Graph Neural Networks

Author

Geerts, Floris and Reutter, Juan L.

Subjects
Computer Science - Machine Learning
Abstract

Characterizing the separation power of graph neural networks (GNNs) provides an understanding of their limitations for graph learning tasks. Results regarding separation power are, however, usually geared at specific GNN architectures, and tools for understanding arbitrary GNN architectures are generally lacking. We provide an elegant way to easily obtain bounds on the separation power of GNNs in terms of the Weisfeiler-Leman (WL) tests, which have become the yardstick to measure the separation power of GNNs. The crux is to view GNNs as expressions in a procedural tensor language describing the computations in the layers of the GNNs. Then, by a simple analysis of the obtained expressions, in terms of the number of indexes and the nesting depth of summations, bounds on the separation power in terms of the WL-tests readily follow. We use tensor language to define Higher-Order Message-Passing Neural Networks (or k-MPNNs), a natural extension of MPNNs. Furthermore, the tensor language point of view allows for the derivation of universality results for classes of GNNs in a natural way. Our approach provides a toolbox with which GNN architecture designers can analyze the separation power of their GNNs, without needing to know the intricacies of the WL-tests. We also provide insights in what is needed to boost the separation power of GNNs., Comment: 43 pages, accepted as oral presentation at ICLR 2022: https://openreview.net/forum?id=wIzUeM3TAU

Published
2022

34. On the expressive power of message-passing neural networks as global feature map transformers

Author

Geerts, Floris, Steegmans, Jasper, and Bussche, Jan Van den

Subjects
Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

We investigate the power of message-passing neural networks (MPNNs) in their capacity to transform the numerical features stored in the nodes of their input graphs. Our focus is on global expressive power, uniformly over all input graphs, or over graphs of bounded degree with features from a bounded domain. Accordingly, we introduce the notion of a global feature map transformer (GFMT). As a yardstick for expressiveness, we use a basic language for GFMTs, which we call MPLang. Every MPNN can be expressed in MPLang, and our results clarify to which extent the converse inclusion holds. We consider exact versus approximate expressiveness; the use of arbitrary activation functions; and the case where only the ReLU activation function is allowed., Comment: 17 pages, 1 figure

Published
2022
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35. The Watts Connectedness Scale: a new scale for measuring a sense of connectedness to self, others, and world

Author

Watts, Rosalind, Kettner, Hannes, Geerts, Dana, Gandy, Sam, Kartner, Laura, Mertens, Lea, Timmermann, Christopher, Nour, Matthew M, Kaelen, Mendel, Nutt, David, Carhart-Harris, Robin, and Roseman, Leor

Subjects
Biological Psychology, Psychology, Behavioral and Social Science, Mental Health, Mental health, Good Health and Well Being, Humans, Psilocybin, Hallucinogens, Emotions, Surveys and Questionnaires, Depressive Disorder, Major, Psychedelics, Alienation, Community, Transpersonal, Nature-connectedness, Relational, Depression, Transdiagnostic, Therapy, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Biological psychology
Abstract

RationaleA general feeling of disconnection has been associated with mental and emotional suffering. Improvements to a sense of connectedness to self, others and the wider world have been reported by participants in clinical trials of psychedelic therapy. Such accounts have led us to a definition of the psychological construct of 'connectedness' as 'a state of feeling connected to self, others and the wider world'. Existing tools for measuring connectedness have focused on particular aspects of connectedness, such as 'social connectedness' or 'nature connectedness', which we hypothesise to be different expressions of a common factor of connectedness. Here, we sought to develop a new scale to measure connectedness as a construct with these multiple domains. We hypothesised that (1) our scale would measure three separable subscale factors pertaining to a felt connection to 'self', 'others' and 'world' and (2) improvements in total and subscale WCS scores would correlate with improved mental health outcomes post psychedelic use.ObjectivesTo validate and test the 'Watts Connectedness Scale' (WCS).MethodsPsychometric validation of the WCS was carried out using data from three independent studies. Firstly, we pooled data from two prospective observational online survey studies. The WCS was completed before and after a planned psychedelic experience. The total sample of completers from the online surveys was N = 1226. Exploratory and confirmatory factor analysis were performed, and construct and criterion validity were tested. A third dataset was derived from a double-blind randomised controlled trial (RCT) comparing psilocybin-assisted therapy (n = 27) with 6 weeks of daily escitalopram (n = 25) for major depressive disorder (MDD), where the WCS was completed at baseline and at a 6-week primary endpoint.ResultsAs hypothesised, factor analysis of all WCS items revealed three main factors with good internal consistency. WCS showed good construct validity. Significant post-psychedelic increases were observed for total connectedness scores (η2 = 0.339, p

Published
2022

39. Clinical management of liver cyst infections: an international, modified Delphi-based clinical decision framework

Author

Duijzer, Renée, Bernts, Lucas H P, Geerts, Anja, van Hoek, Bart, Coenraad, Minneke J, Rovers, Chantal, Alvaro, Domenico, Kuijper, Ed J, Nevens, Frederik, Halbritter, Jan, Colmenero, Jordi, Kupcinskas, Juozas, Salih, Mahdi, Hogan, Marie C, Ronot, Maxime, Vilgrain, Valerie, Hanemaaijer, Nicolien M, Kamath, Patrick S, Strnad, Pavel, Taubert, Richard, Gansevoort, Ron T, Torra, Roser, Nadalin, Silvio, Suwabe, Tatsuya, Gevers, Tom J G, Cardinale, Vincenzo, Drenth, Joost P H, and Lantinga, Marten A

Published
2024
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41. Instructing students in history museums: A systematic literature review

Author

Brent Geerts, Fien Depaepe, and Karel van Nieuwenhuyse

Subjects
History (General), D1-2009
Abstract

History museums offer a wide range of possibilities to engage students in learning about the past, as well as about history. When compared to scholarly research on other types of museums, their educational promises are underexposed. Within these promises, instructional practices and instructional agents such as museum educators and history teachers play an important role. In order to get a view on research methods and findings regarding instruction within history museums, we conducted a systematic literature review. Three scholarly databases were searched, yielding 45 peer-reviewed journal articles. Those have been fully screened, analysed and compared regarding their research design (in terms of research questions, participants involved, and theoretical and methodological approaches) and their research outcomes (in terms of what they revealed about the content, the nature and the approach of instruction in history museums). Review outcomes reveal four different types of research designs, ranging from describing instructional practices to studying beliefs or a combination thereof, or a focus on the relationship between instruction and students’ learning. Within each of these types, great variety was observed regarding the involved participants and the theoretical and methodological approaches. Besides, the review distinguished three areas of research outcomes, namely the goals of instruction, the instructional methods and the relationship between schools and museums before, during and after instruction. Findings within these areas reveal that certain tensions exist, for example between cognitive and emotional-affective learning goals, also related to disciplinary (historical) and civic educational goals. Other tensions were to be distinguished between student- and teacher-centred instructional methods and between beliefs and practices regarding collaborations between schools and museums. Taken together, these research outcomes yield important implications for instructional practices in history museums and for future scholarly research on them.

Published
2024
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42. Maximizing the Impact and ROI of Leadership Development: A Theory- and Evidence-Informed Framework

Author

Jaason M. Geerts

Subjects
leadership development, leader development, evidence-based program design, impact, training transfer, return on investment, Psychology, BF1-990
Abstract

Globally, organizations invest an estimated USD 60 billion annually in leadership development; however, the workplace application of learning is typically low, and many programs underperform or fail, resulting in wasted time and money and potential harm. This article presents a novel theory- and evidence-informed framework to maximize the outcomes and return on investment (ROI) of leadership development programs. The foundation of the framework derives from four separate literature reviews: three systematic reviews on leadership development, including the only two to isolate gold-standard elements of effective design, delivery, and evaluation, and one on “training transfer”. Informed by innovative principles of leadership development and unique theoretical models and frameworks, this framework consists of 65 evidence-informed strategies that can be applied as a foundation (9), and before (23), during (17), at the conclusion of (11), and sometime after (5), programs, to maximize impact and ROI. Implications for practice and further research are also presented. Given the stakes, there is an urgent need for evidence and tools to maximize the impact and ROI of leadership development. This novel framework provides robust theory- and evidence-informed guidance for governments, policymakers, and those funding, designing, delivering, and supporting development.

Published
2024
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43. Bridging the 'Instruction Gap': How ICT Instructors Help Older Adults with the Acquisition of Digital Skills

Author

Geerts, Nelly, Schirmer, Werner, Vercruyssen, Anina, and Glorieux, Ignace

Abstract

Existing research on digital inclusion has shown that older adults (65+) are, in general, less digitally skilled than other age groups. While older adults can gain digital skills through 'cold' (formal) training by ICT instructors or through 'warm' (informal) support from family and friends, studies have suggested that formal training is more effective. Drawing on qualitative interview data of 26 ICT instructors, we (1) examine how their support contributes to the acquisition of digital skills in later life, and (2) explore the ICT instructors' role in the digital inclusion of older adults. The instructors in our study identify specific strategies to address the mental and ageing-related barriers faced by older adults in acquiring digital skills. The 'warm' support provided by family and friends is a double-edged reason behind the need for 'cold' training. On the one hand, they gift devices, encourage uptake, and shape learning desires. On the other hand, participants turn to ICT training due to the limitations of informal support in terms of time, patience, and expertise. Drawing on the instructors' descriptions and existing literature, we argue that ICT instructors play a necessary role in the digital inclusion of older adults as they close the 'instruction gap' left by warm experts.

Published
2023
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