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1. Holographic pseudoentanglement and the complexity of the AdS/CFT dictionary

Author

Akers, Chris, Bouland, Adam, Chen, Lijie, Kohler, Tamara, Metger, Tony, and Vazirani, Umesh

Subjects
High Energy Physics - Theory, Quantum Physics
Abstract

The `quantum gravity in the lab' paradigm suggests that quantum computers might shed light on quantum gravity by simulating the CFT side of the AdS/CFT correspondence and mapping the results to the AdS side. This relies on the assumption that the duality map (the `dictionary') is efficient to compute. In this work, we show that the complexity of the AdS/CFT dictionary is surprisingly subtle: there might be cases in which one can efficiently apply operators to the CFT state (a task we call 'operator reconstruction') without being able to extract basic properties of the dual bulk state such as its geometry (which we call 'geometry reconstruction'). Geometry reconstruction corresponds to the setting where we want to extract properties of a completely unknown bulk dual from a simulated CFT boundary state. We demonstrate that geometry reconstruction may be generically hard due to the connection between geometry and entanglement in holography. In particular we construct ensembles of states whose entanglement approximately obey the Ryu-Takayanagi formula for arbitrary geometries, but which are nevertheless computationally indistinguishable. This suggests that even for states with the special entanglement structure of holographic CFT states, geometry reconstruction might be hard. This result should be compared with existing evidence that operator reconstruction is generically easy in AdS/CFT. A useful analogy for the difference between these two tasks is quantum fully homomorphic encryption (FHE): this encrypts quantum states in such a way that no efficient adversary can learn properties of the state, but operators can be applied efficiently to the encrypted state. We show that quantum FHE can separate the complexity of geometry reconstruction vs operator reconstruction, which raises the question whether FHE could be a useful lens through which to view AdS/CFT., Comment: 45 pages, 9 figures

Published
2024

2. Movie Gen: A Cast of Media Foundation Models

Author

Polyak, Adam, Zohar, Amit, Brown, Andrew, Tjandra, Andros, Sinha, Animesh, Lee, Ann, Vyas, Apoorv, Shi, Bowen, Ma, Chih-Yao, Chuang, Ching-Yao, Yan, David, Choudhary, Dhruv, Wang, Dingkang, Sethi, Geet, Pang, Guan, Ma, Haoyu, Misra, Ishan, Hou, Ji, Wang, Jialiang, Jagadeesh, Kiran, Li, Kunpeng, Zhang, Luxin, Singh, Mannat, Williamson, Mary, Le, Matt, Yu, Matthew, Singh, Mitesh Kumar, Zhang, Peizhao, Vajda, Peter, Duval, Quentin, Girdhar, Rohit, Sumbaly, Roshan, Rambhatla, Sai Saketh, Tsai, Sam, Azadi, Samaneh, Datta, Samyak, Chen, Sanyuan, Bell, Sean, Ramaswamy, Sharadh, Sheynin, Shelly, Bhattacharya, Siddharth, Motwani, Simran, Xu, Tao, Li, Tianhe, Hou, Tingbo, Hsu, Wei-Ning, Yin, Xi, Dai, Xiaoliang, Taigman, Yaniv, Luo, Yaqiao, Liu, Yen-Cheng, Wu, Yi-Chiao, Zhao, Yue, Kirstain, Yuval, He, Zecheng, He, Zijian, Pumarola, Albert, Thabet, Ali, Sanakoyeu, Artsiom, Mallya, Arun, Guo, Baishan, Araya, Boris, Kerr, Breena, Wood, Carleigh, Liu, Ce, Peng, Cen, Vengertsev, Dimitry, Schonfeld, Edgar, Blanchard, Elliot, Juefei-Xu, Felix, Nord, Fraylie, Liang, Jeff, Hoffman, John, Kohler, Jonas, Fire, Kaolin, Sivakumar, Karthik, Chen, Lawrence, Yu, Licheng, Gao, Luya, Georgopoulos, Markos, Moritz, Rashel, Sampson, Sara K., Li, Shikai, Parmeggiani, Simone, Fine, Steve, Fowler, Tara, Petrovic, Vladan, and Du, Yuming

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

We present Movie Gen, a cast of foundation models that generates high-quality, 1080p HD videos with different aspect ratios and synchronized audio. We also show additional capabilities such as precise instruction-based video editing and generation of personalized videos based on a user's image. Our models set a new state-of-the-art on multiple tasks: text-to-video synthesis, video personalization, video editing, video-to-audio generation, and text-to-audio generation. Our largest video generation model is a 30B parameter transformer trained with a maximum context length of 73K video tokens, corresponding to a generated video of 16 seconds at 16 frames-per-second. We show multiple technical innovations and simplifications on the architecture, latent spaces, training objectives and recipes, data curation, evaluation protocols, parallelization techniques, and inference optimizations that allow us to reap the benefits of scaling pre-training data, model size, and training compute for training large scale media generation models. We hope this paper helps the research community to accelerate progress and innovation in media generation models. All videos from this paper are available at https://go.fb.me/MovieGenResearchVideos.

Published
2024

3. PORTAL: Scalable Tabular Foundation Models via Content-Specific Tokenization

Author

Spinaci, Marco, Polewczyk, Marek, Hoffart, Johannes, Kohler, Markus C., Thelin, Sam, and Klein, Tassilo

Subjects
Computer Science - Machine Learning
Abstract

Self-supervised learning on tabular data seeks to apply advances from natural language and image domains to the diverse domain of tables. However, current techniques often struggle with integrating multi-domain data and require data cleaning or specific structural requirements, limiting the scalability of pre-training datasets. We introduce PORTAL (Pretraining One-Row-at-a-Time for All tabLes), a framework that handles various data modalities without the need for cleaning or preprocessing. This simple yet powerful approach can be effectively pre-trained on online-collected datasets and fine-tuned to match state-of-the-art methods on complex classification and regression tasks. This work offers a practical advancement in self-supervised learning for large-scale tabular data., Comment: Accepted at Table Representation Learning Workshop at NeurIPS 2024

Published
2024

4. 3D printing by two-photon polymerization of hollow microneedles for interstitial fluid extraction

Author

Silva, Tiago Elias Abi-Ramia, Kohler, Stephan, Bartzsch, Nicolas, Beuschlein, Felix, and Guentner, Andreas T.

Subjects
Physics - Medical Physics
Abstract

Dermal interstitial fluid (ISF) is a rich source of biomarkers (e.g., glucose) that can be used for continuous health monitoring with wearable sensors. Hollow microneedle devices are a promising solution to extract ISF on demand by penetrating the skin with minimal pain. However, they rely on inserting bio-incompatible materials (e.g., silicon) into individuals, limiting the application time. Here, the direct 3D printing of polymer hollow microneedles on silicon-based microfluidic devices and the successful in-vivo extraction of ISF are demonstrated. Our additive manufacturing approach enables the versatile combination of materials and rapid prototyping of microneedle geometry. After improving the design through finite element modeling, a hollow microneedle geometry was printed by two-photon polymerization and experimentally characterized with mechanical and fluidic tests. Microneedles were fabricated with high accuracy (i.e., 997 +/- 2 um) and reliably interfaced with the microfluidic chip (i.e., centerline alignment within 5% of diameter). The needles demonstrated sufficient mechanical strength (i.e., 411 +/- 3 mN per needle) to endure at least 10 consecutive insertions into simulated skin. Biocompatibility and ISF extraction were demonstrated in an in-vivo 72-hour test, showing the safety and reliability of our approach. Such a platform is promising for minimally invasive, continuous monitoring of biomarkers in ISF, aiding in medical diagnoses and personalized health treatments.

Published
2024

5. Music-triggered fashion design: from songs to the metaverse

Author

Delgado, Martina, Llopart, Marta, Sarabia, Eva, Taboada, Sandra, Vierge, Pol, Vilariño, Fernando, Kohler, Joan Moya, Golijov, Julieta Grimberg, and Bilkis, Matías

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Computers and Society, Computer Science - Social and Information Networks
Abstract

The advent of increasingly-growing virtual realities poses unprecedented opportunities and challenges to different societies. Artistic collectives are not an exception, and we here aim to put special attention into musicians. Compositions, lyrics and even show-advertisements are constituents of a message that artists transmit about their reality. As such, artistic creations are ultimately linked to feelings and emotions, with aesthetics playing a crucial role when it comes to transmit artist's intentions. In this context, we here analyze how virtual realities can help to broaden the opportunities for musicians to bridge with their audiences, by devising a dynamical fashion-design recommendation system inspired by sound stimulus. We present our first steps towards re-defining musical experiences in the metaverse, opening up alternative opportunities for artists to connect both with real and virtual (\textit{e.g.} machine-learning agents operating in the metaverse) in potentially broader ways.

Published
2024

6. Unveiling the Social Fabric: A Temporal, Nation-Scale Social Network and its Characteristics

Author

Cremers, Jolien, Kohler, Benjamin, Maier, Benjamin Frank, Eriksen, Stine Nymann, Einsiedler, Johanna, Christensen, Frederik Kølby, Lehmann, Sune, Lassen, David Dreyer, Mortensen, Laust Hvas, and Bjerre-Nielsen, Andreas

Subjects
Computer Science - Social and Information Networks, Physics - Physics and Society
Abstract

Social networks shape individuals' lives, influencing everything from career paths to health. This paper presents a registry-based, multi-layer and temporal network of the entire Danish population in the years 2008-2021 (roughly 7.2 mill. individuals). Our network maps the relationships formed through family, households, neighborhoods, colleagues and classmates. We outline key properties of this multiplex network, introducing both an individual-focused perspective as well as a bipartite representation. We show how to aggregate and combine the layers, and how to efficiently compute network measures such as shortest paths in large administrative networks. Our analysis reveals how past connections reappear later in other layers, that the number of relationships aggregated over time reflects the position in the income distribution, and that we can recover canonical shortest path length distributions when appropriately weighting connections. Along with the network data, we release a Python package that uses the bipartite network representation for efficient analysis.

Published
2024

7. ChatGPT in Higher Education: Measurement Instruments to Assess Student Knowledge, Usage, and Attitude

Author

Carmen Köhler and Johannes Hartig

Abstract

Since ChatGPT-3.5 has been available to the public, the potentials and challenges regarding chatbot usage in education have been widely discussed. However, little evidence exists whether and for which purposes students even apply generative AI tools. The first main purpose of the present study was to develop and test scales that assess students' (1) knowledge about ChatGPT, (2) actual ChatGPT usage and perceived value of use, and (3) attitude towards ChatGPT. Our second aim was to examine the intercorrelations between these scales, and to investigate differences (a) across five academic fields (i.e., human sciences, social sciences, teaching profession, health sciences, and law and economics) and (b) between stages of education (i.e., number of semesters). N = 693 students from various German universities participated in our online survey. Quality checks (Cronbach's alpha, MacDonald's omega, and confirmatory factor analyses) show satisfactory results for all scales. The scales all positively relate to each other, except for the knowledge and attitude scales. This means that more knowledge about ChatGPT is connected to a less favorable attitude regarding the generative AI tool. Lastly, MANOVA and subsequent Bonferroni corrected ANOVA tests show that ChatGPT is mostly used by law and economics students, and most frequently by students in the third year of higher education.

Published
2024

8. Expertise Development at Work: A Workplace Curriculum Perspective in the Domains of Sales Representatives and Leadership Coaches in a German Context

Author

Daniel Paul Köhler and Michael Goller

Abstract

Context: Active engagement and participation in professional practices are an important requirement for expertise development in vocational domains. However, not much is known about how work contexts foster or hinder such expertise development. To further fill this research gap, this study investigates two vocational domains, namely sales representatives and leadership coaches, using the Workplace Curriculum Approach. This approach focuses on three aspects. First, how novices get access to certain tasks. Second, which tasks at work are especially conducive to learning, referred to as pedagogically-rich activities. Third, what knowledge is hard-to-learn through practice alone. By focusing on these three aspects, the Workplace Curriculum Approach helps to understand learning. Method: Eleven highly competent sales representatives and ten highly competent leadership coaches from German organizations participated in an interview study. A thematic qualitative text analysis was applied using deductive and inductive coding. Results: For sales representatives, task sequencing is different across organizations due to structural factors, particularly products, and infrastructure. Ideally, apprentices start by getting to know the customers by selling products on site at a counter and by getting to know the products in the warehouse. challenging interactions with customers on the phone are most conducive to learning. The scope of the product portfolio and the amount of technical knowledge are hard to learn. Leadership coaches are encouraged by peers to start at team leader and smaller team levels before moving on to more senior executives and larger team levels. Weekly team meetings offer important social learning opportunities similar to informal discussions among peers. Methodological and organizational knowledge are hard to learn. Conclusion: Regardless of differences between both domains, the Workplace Curriculum Approach proved useful for analyzing learning and expertise development in the different workplace contexts. The approach proved to be a fairly tangible and easy-to-use tool to investigate how workplaces support expertise development and how workplace learning regimes might be changed to further foster novices' learning and development. Researchers and practitioners alike can utilize the Workplace Curriculum Approach to analyze learning in different domains in their respective organization. However, individual factors of the learners such as motivation to participate in activities in the workplace are not explicitly included in this approach to investigate professional learning and development. They should be of additional focus in any study interested in vocational expertise development.

Published
2024

9. Revisiting the Three Basic Dimensions Model: A Critical Empirical Investigation of the Indirect Effects of Student-Perceived Teaching Quality on Student Outcomes

Author

Aysenur Alp Christ, Vanda Capon-Sieber, Carmen Köhler, Eckhard Klieme, and Anna-Katharina Praetorius

Abstract

The Three Basic Dimensions model, theorizes three mediators for the effect of teaching quality dimensions on student outcomes. However, the proposed mediating paths and their effects have largely not been empirically tested. This study investigated the mediating role of depth of-processing, time-on-task, and need satisfaction between student-perceived teaching quality and student mathematics achievement and interest, expanding the TBD model to include mediation paths suggested by theories of motivation, cognition, and effort. Data from the TALIS Video Study for Germany, comprising 958 secondary school students in 41 classrooms, were used to run multilevel longitudinal and correlational mediation analyses. The results only found mediation effects at the student level; there were no mediating effects at the classroom level. Not all of the hypothesized relationships thought to exist between the mediators and achievement and interest outcomes were confirmed. The conceptual sequence of the variables, the choice of correlational vs. longitudinal evidence, and the level of analysis were all shown to have an impact on the results. The study thus confirms some of the assumptions of the TBD model, identifies new paths between teaching quality and student outcomes, and provides suggestions for how to proceed with further investigation of a model which should be expanded and more thoroughly empirically tested.

Published
2024

10. A single risk assessment for the most common diseases of ageing, developed and validated on 10 cohort studies.

Author

Huque, Md, Kootar, Scherazad, Kiely, Kim, Anderson, Craig, van Boxtel, Martin, Brodaty, Henry, Sachdev, Perminder, Carlson, Michelle, Fitzpatrick, Annette, Whitmer, Rachel, Kivipelto, Miia, Jorm, Louisa, Köhler, Sebastian, Lautenschlager, Nicola, Lopez, Oscar, Shaw, Jonathan, Matthews, Fiona, Peters, Ruth, and Anstey, Kaarin

Subjects
Dementia, Diabetes, Heart attack, Primary prevention, Risk factors, Risk prediction, Risk tool, Stroke, Humans, Aged, Risk Assessment, Male, Female, Cohort Studies, Aged, 80 and over, Dementia, Diabetes Mellitus, Myocardial Infarction, Stroke, Risk Factors, Aging
Abstract

BACKGROUND: We aimed to develop risk tools for dementia, stroke, myocardial infarction (MI), and diabetes, for adults aged ≥ 65 years using shared risk factors. METHODS: Data were obtained from 10 population-based cohorts (N = 41,755) with median follow-up time (years) for dementia, stroke, MI, and diabetes of 6.2, 7.0, 6.8, and 7.4, respectively. Disease-free participants at baseline were included, and 22 risk factors (sociodemographic, medical, lifestyle, laboratory biomarkers) were evaluated. Two risk tools (DemNCD and DemNCD-LR based on Fine and Gray sub-distribution and logistic regression [LR], respectively) were developed and validated. Predictive accuracies of these risk tools were assessed using Harrels C-statistics and area under the curve (AUC) and 95% confidence interval (CI). Model calibration was conducted using Hosmer-Lemeshow goodness of fit test along calibration plots. RESULTS: Both the DemNCD and DemNCD-LR resulted in similar predictive accuracy for each outcome. The overall AUC (95% CI) for dementia, stroke, MI, and diabetes risk tool were 0·68 (0·65, 0·70), 0·58 (0·54, 0·61), 0·65 (0·61, 0·68), and 0·68 (0·64, 0·72), respectively, for males. For females, these figures were 0·65 (0·63, 0·67), 0·55 (0·52, 0·57), 0·65 (0·62, 0·68), and 0·61 (0·57, 0·65). CONCLUSIONS: The DemNCD is the first tool to predict both dementia and multiple cardio-metabolic diseases using comprehensive risk factors and provided similar predictive accuracy to existing risk tools. It has similar predictive accuracy as tools designed for single outcomes in this age-group. DemNCD has the potential to be used in community and clinical settings as it includes self-reported and routinely available clinical measures.

Published
2024

11. The Unified Phenotype Ontology (uPheno): A framework for cross-species integrative phenomics

Author

Matentzoglu, Nicolas, Bello, Susan M, Stefancsik, Ray, Alghamdi, Sarah M, Anagnostopoulos, Anna V, Balhoff, James P, Balk, Meghan A, Bradford, Yvonne M, Bridges, Yasemin, Callahan, Tiffany J, Caufield, Harry, Cuzick, Alayne, Carmody, Leigh C, Caron, Anita R, de Souza, Vinicius, Engel, Stacia R, Fey, Petra, Fisher, Malcolm, Gehrke, Sarah, Grove, Christian, Hansen, Peter, Harris, Nomi L, Harris, Midori A, Harris, Laura, Ibrahim, Arwa, Jacobsen, Julius OB, Köhler, Sebastian, McMurry, Julie A, Munoz-Fuentes, Violeta, Munoz-Torres, Monica C, Parkinson, Helen, Pendlington, Zoë M, Pilgrim, Clare, Robb, Sofia Mc, Robinson, Peter N, Seager, James, Segerdell, Erik, Smedley, Damian, Sollis, Elliot, Toro, Sabrina, Vasilevsky, Nicole, Wood, Valerie, Haendel, Melissa A, Mungall, Christopher J, McLaughlin, James A, and Osumi-Sutherland, David

Subjects
Information and Computing Sciences, Biological Sciences, Artificial Intelligence, Genetics, Generic health relevance
Abstract

Phenotypic data are critical for understanding biological mechanisms and consequences of genomic variation, and are pivotal for clinical use cases such as disease diagnostics and treatment development. For over a century, vast quantities of phenotype data have been collected in many different contexts covering a variety of organisms. The emerging field of phenomics focuses on integrating and interpreting these data to inform biological hypotheses. A major impediment in phenomics is the wide range of distinct and disconnected approaches to recording the observable characteristics of an organism. Phenotype data are collected and curated using free text, single terms or combinations of terms, using multiple vocabularies, terminologies, or ontologies. Integrating these heterogeneous and often siloed data enables the application of biological knowledge both within and across species. Existing integration efforts are typically limited to mappings between pairs of terminologies; a generic knowledge representation that captures the full range of cross-species phenomics data is much needed. We have developed the Unified Phenotype Ontology (uPheno) framework, a community effort to provide an integration layer over domain-specific phenotype ontologies, as a single, unified, logical representation. uPheno comprises (1) a system for consistent computational definition of phenotype terms using ontology design patterns, maintained as a community library; (2) a hierarchical vocabulary of species-neutral phenotype terms under which their species-specific counterparts are grouped; and (3) mapping tables between species-specific ontologies. This harmonized representation supports use cases such as cross-species integration of genotype-phenotype associations from different organisms and cross-species informed variant prioritization.

Published
2024

12. Candida albicans inorganic phosphate transport and evolutionary adaptation to phosphate scarcity.

Author

Acosta-Zaldívar, Maikel, Qi, Wanjun, Mishra, Abhishek, Roy, Udita, King, William, Li, Yuping, Patton-Vogt, Jana, Anderson, Matthew, and Köhler, Julia

Subjects
Phosphates, Candida albicans, Adaptation, Physiological, Fungal Proteins, Hydrogen-Ion Concentration, Phosphate Transport Proteins, Mutation, Gene Expression Regulation, Fungal, Humans, Biological Transport
Abstract

Phosphorus is essential in all cells structural, metabolic and regulatory functions. For fungal cells that import inorganic phosphate (Pi) up a steep concentration gradient, surface Pi transporters are critical capacitators of growth. Fungi must deploy Pi transporters that enable optimal Pi uptake in pH and Pi concentration ranges prevalent in their environments. Single, triple and quadruple mutants were used to characterize the four Pi transporters we identified for the human fungal pathogen Candida albicans, which must adapt to alkaline conditions during invasion of the host bloodstream and deep organs. A high-affinity Pi transporter, Pho84, was most efficient across the widest pH range while another, Pho89, showed high-affinity characteristics only within one pH unit of neutral. Two low-affinity Pi transporters, Pho87 and Fgr2, were active only in acidic conditions. Only Pho84 among the Pi transporters was clearly required in previously identified Pi-related functions including Target of Rapamycin Complex 1 signaling, oxidative stress resistance and hyphal growth. We used in vitro evolution and whole genome sequencing as an unbiased forward genetic approach to probe adaptation to prolonged Pi scarcity of two quadruple mutant lineages lacking all 4 Pi transporters. Lineage-specific genomic changes corresponded to divergent success of the two lineages in fitness recovery during Pi limitation. Initial, large-scale genomic alterations like aneuploidies and loss of heterozygosity eventually resolved, as populations gained small-scale mutations. Severity of some phenotypes linked to Pi starvation, like cell wall stress hypersensitivity, decreased in parallel to evolving populations fitness recovery in Pi scarcity, while severity of others like membrane stress responses diverged from Pi scarcity fitness. Among preliminary candidate genes for contributors to fitness recovery, those with links to TORC1 were overrepresented. Since Pi homeostasis differs substantially between fungi and humans, adaptive processes to Pi deprivation may harbor small-molecule targets that impact fungal growth, stress resistance and virulence.

Published
2024

13. Multiway Multislice PHATE: Visualizing Hidden Dynamics of RNNs through Training

Author

Xie, Jiancheng, Voinov, Lou C. Kohler, Mudrik, Noga, Mishne, Gal, and Charles, Adam

Subjects
Computer Science - Machine Learning
Abstract

Recurrent neural networks (RNNs) are a widely used tool for sequential data analysis, however, they are still often seen as black boxes of computation. Understanding the functional principles of these networks is critical to developing ideal model architectures and optimization strategies. Previous studies typically only emphasize the network representation post-training, overlooking their evolution process throughout training. Here, we present Multiway Multislice PHATE (MM-PHATE), a novel method for visualizing the evolution of RNNs' hidden states. MM-PHATE is a graph-based embedding using structured kernels across the multiple dimensions spanned by RNNs: time, training epoch, and units. We demonstrate on various datasets that MM-PHATE uniquely preserves hidden representation community structure among units and identifies information processing and compression phases during training. The embedding allows users to look under the hood of RNNs across training and provides an intuitive and comprehensive strategy to understanding the network's internal dynamics and draw conclusions, e.g., on why and how one model outperforms another or how a specific architecture might impact an RNN's learning ability.

Published
2024

14. Challenge-Device-Synthesis: A multi-disciplinary approach for the development of social innovation competences for students of Artificial Intelligence

Author

Bilkis, Matías, Kohler, Joan Moya, and Vilariño, Fernando

Subjects
Computer Science - Artificial Intelligence, Physics - Physics Education
Abstract

The advent of Artificial Intelligence is expected to imply profound changes in the short-term. It is therefore imperative for Academia, and particularly for the Computer Science scope, to develop cross-disciplinary tools that bond AI developments to their social dimension. To this aim, we introduce the Challenge-Device-Synthesis methodology (CDS), in which a specific challenge is presented to the students of AI, who are required to develop a device as a solution for the challenge. The device becomes the object of study for the different dimensions of social transformation, and the conclusions addressed by the students during the discussion around the device are presented in a synthesis piece in the shape of a 10-page scientific paper. The latter is evaluated taking into account both the depth of analysis and the level to which it genuinely reflects the social transformations associated with the proposed AI-based device. We provide data obtained during the pilot for the implementation phase of CDS within the subject of Social Innovation, a 6-ECTS subject from the 6th semester of the Degree of Artificial Intelligence, UAB-Barcelona. We provide details on temporalisation, task distribution, methodological tools used and assessment delivery procedure, as well as qualitative analysis of the results obtained., Comment: accepted as contribution for EDULEARN24 - 16th annual International Conference on Education and New Learning Technologies

Published
2024

15. Interpretable and Editable Programmatic Tree Policies for Reinforcement Learning

Author

Kohler, Hector, Delfosse, Quentin, Akrour, Riad, Kersting, Kristian, and Preux, Philippe

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

Deep reinforcement learning agents are prone to goal misalignments. The black-box nature of their policies hinders the detection and correction of such misalignments, and the trust necessary for real-world deployment. So far, solutions learning interpretable policies are inefficient or require many human priors. We propose INTERPRETER, a fast distillation method producing INTerpretable Editable tRee Programs for ReinforcEmenT lEaRning. We empirically demonstrate that INTERPRETER compact tree programs match oracles across a diverse set of sequential decision tasks and evaluate the impact of our design choices on interpretability and performances. We show that our policies can be interpreted and edited to correct misalignments on Atari games and to explain real farming strategies.

Published
2024

16. Quantum Dissipation at Conical Intersections of Quasienergies

Author

Kohler, Sigmund

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate the properties of Floquet states in the vicinity of a conical intersection of quasienergies and work out the consequences of the underlying spatio-temporal symmetries for a driven two-level system coupled to an ohmic heat bath. We find that on manifolds with constant quasienergy splitting, the mean energies of the Floquet states are continuously interchanged. In the presence of dissipation, the parameter dependence of the stationary populations generally resembles that of the mean energies. In turn, the mean energies are an indicator for the qualitative behavior of the density operator in the long-time limit. A further consequence of the symmetries is that for specific driving parameters, the stationary state may be fully mixed even at arbitrarily low temperatures. For large driving frequencies, such states with maximal entropy are found in the whole vicinity of the intersection, which can be explained by a chirality emerging in this limit. Analytical results beyond a high-frequency approximation are illustrated by numerical data., Comment: 7 pages, 6 figures

Published
2024
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17. Analysis of the rate of convergence of an over-parametrized convolutional neural network image classifier learned by gradient descent

Author

Kohler, Michael, Krzyzak, Adam, and Walter, Benjamin

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

Image classification based on over-parametrized convolutional neural networks with a global average-pooling layer is considered. The weights of the network are learned by gradient descent. A bound on the rate of convergence of the difference between the misclassification risk of the newly introduced convolutional neural network estimate and the minimal possible value is derived.

Published
2024

18. Imagine Flash: Accelerating Emu Diffusion Models with Backward Distillation

Author

Kohler, Jonas, Pumarola, Albert, Schönfeld, Edgar, Sanakoyeu, Artsiom, Sumbaly, Roshan, Vajda, Peter, and Thabet, Ali

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Diffusion models are a powerful generative framework, but come with expensive inference. Existing acceleration methods often compromise image quality or fail under complex conditioning when operating in an extremely low-step regime. In this work, we propose a novel distillation framework tailored to enable high-fidelity, diverse sample generation using just one to three steps. Our approach comprises three key components: (i) Backward Distillation, which mitigates training-inference discrepancies by calibrating the student on its own backward trajectory; (ii) Shifted Reconstruction Loss that dynamically adapts knowledge transfer based on the current time step; and (iii) Noise Correction, an inference-time technique that enhances sample quality by addressing singularities in noise prediction. Through extensive experiments, we demonstrate that our method outperforms existing competitors in quantitative metrics and human evaluations. Remarkably, it achieves performance comparable to the teacher model using only three denoising steps, enabling efficient high-quality generation.

Published
2024

20. Placebo effects in randomized trials of pharmacological and neurostimulation interventions for mental disorders: An umbrella review

Author

Huneke, Nathan T. M., Amin, Jay, Baldwin, David S., Bellato, Alessio, Brandt, Valerie, Chamberlain, Samuel R., Correll, Christoph U., Eudave, Luis, Garner, Matthew, Gosling, Corentin J., Hill, Catherine M., Hou, Ruihua, Howes, Oliver D., Ioannidis, Konstantinos, Köhler-Forsberg, Ole, Marzulli, Lucia, Reed, Claire, Sinclair, Julia M. A., Singh, Satneet, Solmi, Marco, and Cortese, Samuele

Published
2024
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30. Biodiversity impacts of the 2019–2020 Australian megafires

Author

Driscoll, Don A., Macdonald, Kristina J., Gibson, Rebecca K., Doherty, Tim S., Nimmo, Dale G., Nolan, Rachael H., Ritchie, Euan G., Williamson, Grant J., Heard, Geoffrey W., Tasker, Elizabeth M., Bilney, Rohan, Porch, Nick, Collett, Rachael A., Crates, Ross A., Hewitt, Alison C., Pendall, Elise, Boer, Matthias M., Gates, Jody, Boulton, Rebecca L., Mclean, Christopher M., Groffen, Heidi, Maisey, Alex C., Beranek, Chad T., Ryan, Shelby A., Callen, Alex, Hamer, Andrew J., Stauber, Andrew, Daly, Garry J., Gould, John, Klop-Toker, Kaya L., Mahony, Michael J., Kelly, Oliver W., Wallace, Samantha L., Stock, Sarah E., Weston, Christopher J., Volkova, Liubov, Black, Dennis, Gibb, Heloise, Grubb, Joshua J., McGeoch, Melodie A., Murphy, Nick P., Lee, Joshua S., Dickman, Chris R., Neldner, Victor J., Ngugi, Michael R., Miritis, Vivianna, Köhler, Frank, Perri, Marc, Denham, Andrew J., Mackenzie, Berin D. E., Reid, Chris A. M., Rayment, Julia T., Arriaga-Jiménez, Alfonsina, Hewins, Michael W., Hicks, Andrew, Melbourne, Brett A., Davies, Kendi F., Bitters, Matthew E., Linley, Grant D., Greenville, Aaron C., Webb, Jonathan K., Roberts, Bridget, Letnic, Mike, Price, Owen F., Walker, Zac C., Murray, Brad R., Verhoeven, Elise M., Thomsen, Alexandria M., Keith, David, Lemmon, Jedda S., Ooi, Mark K. J., Allen, Vanessa L., Decker, Orsi T., Green, Peter T., Moussalli, Adnan, Foon, Junn K., Bryant, David B., Walker, Ken L., Bruce, Matthew J., Madani, George, Tscharke, Jeremy L., Wagner, Benjamin, Nitschke, Craig R., Gosper, Carl R., Yates, Colin J., Dillon, Rebecca, Barrett, Sarah, Spencer, Emma E., Wardle, Glenda M., Newsome, Thomas M., Pulsford, Stephanie A., Singh, Anu, Roff, Adam, Marsh, Karen J., Mcdonald, Kye, Howell, Lachlan G., Lane, Murraya R., Cristescu, Romane H., Witt, Ryan R., Cook, Emma J., Grant, Felicity, Law, Bradley S., Seddon, Julian, Berris, Karleah K., Shofner, Ryan M., Barth, Mike, Welz, Torran, Foster, Alison, Hancock, David, Beitzel, Matthew, Tan, Laura X. L., Waddell, Nathan A., Fallow, Pamela M., Schweickle, Laura, Le Breton, Tom D., Dunne, Craig, Green, Mikayla, Gilpin, Amy-Marie, Cook, James M., Power, Sally A., Hogendoorn, Katja, Brawata, Renee, Jolly, Chris J., Tozer, Mark, Reiter, Noushka, and Phillips, Ryan D.

Published
2024
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34. PID Tuning using Cross-Entropy Deep Learning: a Lyapunov Stability Analysis

Author

Kohler, Hector, Clement, Benoit, Chaffre, Thomas, and Chenadec, Gilles Le

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Machine Learning, Computer Science - Robotics
Abstract

Underwater Unmanned Vehicles (UUVs) have to constantly compensate for the external disturbing forces acting on their body. Adaptive Control theory is commonly used there to grant the control law some flexibility in its response to process variation. Today, learning-based (LB) adaptive methods are leading the field where model-based control structures are combined with deep model-free learning algorithms. This work proposes experiments and metrics to empirically study the stability of such a controller. We perform this stability analysis on a LB adaptive control system whose adaptive parameters are determined using a Cross-Entropy Deep Learning method.

Published
2024
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35. Towards a Research Community in Interpretable Reinforcement Learning: the InterpPol Workshop

Author

Kohler, Hector, Delfosse, Quentin, Festor, Paul, and Preux, Philippe

Subjects
Computer Science - Artificial Intelligence, Computer Science - Human-Computer Interaction, Computer Science - Machine Learning, Computer Science - Symbolic Computation
Abstract

Embracing the pursuit of intrinsically explainable reinforcement learning raises crucial questions: what distinguishes explainability from interpretability? Should explainable and interpretable agents be developed outside of domains where transparency is imperative? What advantages do interpretable policies offer over neural networks? How can we rigorously define and measure interpretability in policies, without user studies? What reinforcement learning paradigms,are the most suited to develop interpretable agents? Can Markov Decision Processes integrate interpretable state representations? In addition to motivate an Interpretable RL community centered around the aforementioned questions, we propose the first venue dedicated to Interpretable RL: the InterpPol Workshop.

Published
2024

36. Learning of deep convolutional network image classifiers via stochastic gradient descent and over-parametrization

Author

Kohler, Michael, Krzyzak, Adam, and Sänger, Alisha

Subjects
Mathematics - Statistics Theory
Abstract

Image classification from independent and identically distributed random variables is considered. Image classifiers are defined which are based on a linear combination of deep convolutional networks with max-pooling layer. Here all the weights are learned by stochastic gradient descent. A general result is presented which shows that the image classifiers are able to approximate the best possible deep convolutional network. In case that the a posteriori probability satisfies a suitable hierarchical composition model it is shown that the corresponding deep convolutional neural network image classifier achieves a rate of convergence which is independent of the dimension of the images., Comment: arXiv admin note: text overlap with arXiv:2312.17007

Published
2024

37. Direct neutrino-mass measurement based on 259 days of KATRIN data

Author

Aker, M, Batzler, D, Beglarian, A, Behrens, J, Beisenkötter, J, Biassoni, M, Bieringer, B, Biondi, Y, Block, F, Bobien, S, Böttcher, M, Bornschein, B, Bornschein, L, Caldwell, TS, Carminati, M, Chatrabhuti, A, Chilingaryan, S, Daniel, BA, Debowski, K, Descher, M, Barrero, D Díaz, Doe, PJ, Dragoun, O, Drexlin, G, Edzards, F, Eitel, K, Ellinger, E, Engel, R, Enomoto, S, Felden, A, Fengler, C, Fiorini, C, Formaggio, JA, Forstner, C, Fränkle, FM, Gauda, K, Gavin, AS, Gil, W, Glück, F, Grohmann, S, Grössle, R, Gumbsheimer, R, Gutknecht, N, Hannen, V, Hasselmann, L, Haußmann, N, Helbing, K, Henke, H, Heyns, S, Hickford, S, Hiller, R, Hillesheimer, D, Hinz, D, Höhn, T, Huber, A, Jansen, A, Karl, C, Kellerer, J, Khosonthongkee, K, Kleifges, M, Klein, M, Kohpeiß, J, Köhler, C, Köllenberger, L, Kopmann, A, Kovač, N, Kovalík, A, Krause, H, Cascio, L La, Lasserre, T, Lauer, J, Le, T, Lebeda, O, Lehnert, B, Li, G, Lokhov, A, Machatschek, M, Mark, M, Marsteller, A, Martin, EL, Melzer, C, Mertens, S, Mohanty, S, Mostafa, J, Müller, K, Nava, A, Neumann, H, Niemes, S, Onillon, A, Parno, DS, Pavan, M, Pinsook, U, Poon, AWP, Poyato, JM Lopez, Pozzi, S, Priester, F, Ráliš, J, Ramachandran, S, Robertson, RGH, and Rodenbeck, C

Subjects
nucl-ex, hep-ex
Abstract

The fact that neutrinos carry a non-vanishing rest mass is evidence ofphysics beyond the Standard Model of elementary particles. Their absolute massbears important relevance from particle physics to cosmology. In this work, wereport on the search for the effective electron antineutrino mass with theKATRIN experiment. KATRIN performs precision spectroscopy of the tritium$\beta$-decay close to the kinematic endpoint. Based on the first fiveneutrino-mass measurement campaigns, we derive a best-fit value of $m_u^{2} ={-0.14^{+0.13}_{-0.15}}~\mathrm{eV^2}$, resulting in an upper limit of $m_u <{0.45}~\mathrm{eV}$ at 90 % confidence level. With six times the statistics ofprevious data sets, amounting to 36 million electrons collected in 259measurement days, a substantial reduction of the background level and improvedsystematic uncertainties, this result tightens KATRIN's previous bound by afactor of almost two.

Published
2024

38. [Not Available].

Author

Van Asbroeck, Stephanie, Köhler, Sebastian, van Boxtel, Martin, Lipnicki, Darren, Crawford, John, Castro-Costa, Erico, Lima-Costa, Maria, Blay, Sergio, Shifu, Xiao, Wang, Tao, Yue, Ling, Lipton, Richard, Katz, Mindy, Derby, Carol, Guerchet, Maëlenn, Preux, Pierre-Marie, Mbelesso, Pascal, Norton, Joanna, Ritchie, Karen, Skoog, Ingmar, Najar, Jenna, Sterner, Therese, Scarmeas, Nikolaos, Yannakoulia, Mary, Dardiotis, Themis, Rolandi, Elena, Davin, Annalisa, Rossi, Michele, Gureje, Oye, Ojagbemi, Akin, Bello, Toyin, Kim, Ki, Han, Ji, Oh, Dae, Trompet, Stella, Gussekloo, Jacobijn, Riedel-Heller, Steffi, Röhr, Susanne, Pabst, Alexander, Shahar, Suzana, Rivan, Nurul, Singh, Devinder, Jacobsen, Erin, Ganguli, Mary, Hughes, Tiffany, Haan, Mary, Aiello, Allison, Ding, Ding, Zhao, Qianhua, Xiao, Zhenxu, Narazaki, Kenji, Chen, Tao, Chen, Sanmei, Ng, Tze, Gwee, Xinyi, Gao, Qi, Brodaty, Henry, Trollor, Julian, Kochan, Nicole, Lobo, Antonio, Santabárbara, Javier, Gracia-Garcia, Patricia, Sachdev, Perminder, and Deckers, Kay

Subjects
age, dementia, dementia risk reduction, education, effect modification, ethnicity, individual participant data meta‐analysis, interaction, lifestyle, primary prevention, region, risk factor, risk personalization, sex, socioeconomic, Humans, Dementia, Life Style, Male, Female, Risk Factors, Aged, Prospective Studies, Incidence
Abstract

INTRODUCTION: The LIfestyle for BRAin Health (LIBRA) index yields a dementia risk score based on modifiable lifestyle factors and is validated in Western samples. We investigated whether the association between LIBRA scores and incident dementia is moderated by geographical location or sociodemographic characteristics. METHODS: We combined data from 21 prospective cohorts across six continents (N = 31,680) and conducted cohort-specific Cox proportional hazard regression analyses in a two-step individual participant data meta-analysis. RESULTS: A one-standard-deviation increase in LIBRA score was associated with a 21% higher risk for dementia. The association was stronger for Asian cohorts compared to European cohorts, and for individuals aged ≤75 years (vs older), though only within the first 5 years of follow-up. No interactions with sex, education, or socioeconomic position were observed. DISCUSSION: Modifiable risk and protective factors appear relevant for dementia risk reduction across diverse geographical and sociodemographic groups. HIGHLIGHTS: A two-step individual participant data meta-analysis was conducted. This was done at a global scale using data from 21 ethno-regionally diverse cohorts. The association between a modifiable dementia risk score and dementia was examined. The association was modified by geographical region and age at baseline. Yet, modifiable dementia risk and protective factors appear relevant in all investigated groups and regions.

Published
2024

39. DIF Detection for Multiple Groups: Comparing Three-Level GLMMs and Multiple-Group IRT Models

Author

Carmen Köhler, Lale Khorramdel, Artur Pokropek, and Johannes Hartig

Abstract

For assessment scales applied to different groups (e.g., students from different states; patients in different countries), multigroup differential item functioning (MG-DIF) needs to be evaluated in order to ensure that respondents with the same trait level but from different groups have equal response probabilities on a particular item. The current study compares two approaches for DIF detection: a multiple-group item response theory (MG-IRT) model and a generalized linear mixed model (GLMM). In the MG-IRT model approach, item parameters are constrained to be equal across groups and DIF is evaluated for each item in each group. In the GLMM, groups are treated as random, and item difficulties are modeled as correlated random effects with a joint multivariate normal distribution. Its nested structure allows the estimation of item difficulty variances and covariances at the group level. We use an excerpt from the PISA 2015 reading domain as an exemplary empirical investigation, and conduct a simulation study to compare the performance of the two approaches. Results from the empirical investigation show that the detection of countries with DIF is similar in both approaches. Results from the simulation study confirm this finding and indicate slight advantages of the MG-IRT model approach.

Published
2024
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