Analysis of defects on machined surfaces of aluminum alloy (Al 7075) using imaging and topographical techniques

Aluminum alloys 7075 (Al 7075) are widely used for various industrial components in which machining operations are often conducted during their manufacturing process. However, the machining operations could introduce defects on the machined surfaces of the components which will be carried over and may lead to either issues in the subsequent fabrication process or failure during the products' service life. This study investigates the machined surface's defects of Al 7075 underwent drilling operations using imaging and topographical techniques which include optical microscope, scanning electron microscope and 3D surface profiler. Surface roughness was analysed with respect to the surface defects to investigate the correlation between the roughness parameters and topographical features of the machined surfaces. The defects found on the machined surfaces of Al 7075 are microcrack, adhesion, feed mark and burr. Surface roughness was found to be highly influenced by topographical features particularly feed mark. Thus, in addition to measuring the roughness, inspection through imaging and 3D topographic techniques is important for analyzing the surface characteristic in order to determine the defects, hence deducing the detailed surface features and deformation caused by the drilling operations

Proceedings of the 8th Workshop on Detection and Classification of Acoustic Scenes and Events (DCASE 2023)

This volume gathers the papers presented at the Detection and Classification of Acoustic Scenes and Events 2023 Workshop (DCASE2023), Tampere, Finland, during 21–22 September 2023

AI alignment and generalization in deep learning

This thesis covers a number of works in deep learning aimed at understanding and improving generalization abilities of deep neural networks (DNNs). DNNs achieve unrivaled performance in a growing range of tasks and domains, yet their behavior during learning and deployment remains poorly understood. They can also be surprisingly brittle: in-distribution generalization can be a poor predictor of behavior or performance under distributional shifts, which typically cannot be avoided in practice. While these limitations are not unique to DNNs -- and indeed are likely to be challenges facing any AI systems of sufficient complexity -- the prevalence and power of DNNs makes them particularly worthy of study. I frame these challenges within the broader context of "AI Alignment": a nascent field focused on ensuring that AI systems behave in accordance with their user's intentions. While making AI systems more intelligent or capable can help make them more aligned, it is neither necessary nor sufficient for alignment. However, being able to align state-of-the-art AI systems (e.g. DNNs) is of great social importance in order to avoid undesirable and unsafe behavior from advanced AI systems. Without progress in AI Alignment, advanced AI systems might pursue objectives at odds with human survival, posing an existential risk (``x-risk'') to humanity. A core tenet of this thesis is that the achieving high performance on machine learning benchmarks if often a good indicator of AI systems' capabilities, but not their alignment. This is because AI systems often achieve high performance in unexpected ways that reveal the limitations of our performance metrics, and more generally, our techniques for specifying our intentions. Learning about human intentions using DNNs shows some promise, but DNNs are still prone to learning to solve tasks using concepts of "features" very different from those which are salient to humans. Indeed, this is a major source of their poor generalization on out-of-distribution data. By better understanding the successes and failures of DNN generalization and current methods of specifying our intentions, we aim to make progress towards deep-learning based AI systems that are able to understand users' intentions and act accordingly.Cette thèse discute quelques travaux en apprentissage profond visant à comprendre et à améliorer les capacités de généralisation des réseaux de neurones profonds (DNN). Les DNNs atteignent des performances inégalées dans un éventail croissant de tâches et de domaines, mais leur comportement pendant l'apprentissage et le déploiement reste mal compris. Ils peuvent également être étonnamment fragiles: la généralisation dans la distribution peut être un mauvais prédicteur du comportement ou de la performance lors de changements de distribution, ce qui ne peut généralement pas être évité dans la pratique. Bien que ces limitations ne soient pas propres aux DNN - et sont en effet susceptibles de constituer des défis pour tout système d'IA suffisamment complexe - la prévalence et la puissance des DNN les rendent particulièrement dignes d'étude. J'encadre ces défis dans le contexte plus large de «l'alignement de l'IA»: un domaine naissant axé sur la garantie que les systèmes d'IA se comportent conformément aux intentions de leurs utilisateurs. Bien que rendre les systèmes d'IA plus intelligents ou capables puisse aider à les rendre plus alignés, cela n'est ni nécessaire ni suffisant pour l'alignement. Cependant, être capable d'aligner les systèmes d'IA de pointe (par exemple les DNN) est d'une grande importance sociale afin d'éviter les comportements indésirables et dangereux des systèmes d'IA avancés. Sans progrès dans l'alignement de l'IA, les systèmes d'IA avancés pourraient poursuivre des objectifs contraires à la survie humaine, posant un risque existentiel («x-risque») pour l'humanité. L'un des principes fondamentaux de cette thèse est que l'obtention de hautes performances sur les repères d'apprentissage automatique est souvent un bon indicateur des capacités des systèmes d'IA, mais pas de leur alignement. En effet, les systèmes d'IA atteignent souvent des performances élevées de manière inattendue, ce qui révèle les limites de nos mesures de performance et, plus généralement, de nos techniques pour spécifier nos intentions. L'apprentissage des intentions humaines à l'aide des DNN est quelque peu prometteur, mais les DNN sont toujours enclins à apprendre à résoudre des tâches en utilisant des concepts de «caractéristiques» très différents de ceux qui sont saillants pour les humains. En effet, c'est une source majeure de leur mauvaise généralisation sur les données hors distribution. En comprenant mieux les succès et les échecs de la généralisation DNN et les méthodes actuelles de spécification de nos intentions, nous visons à progresser vers des systèmes d'IA basés sur l'apprentissage en profondeur qui sont capables de comprendre les intentions des utilisateurs et d'agir en conséquence

IberSPEECH 2020: XI Jornadas en Tecnología del Habla and VII Iberian SLTech

IberSPEECH2020 is a two-day event, bringing together the best researchers and practitioners in speech and language technologies in Iberian languages to promote interaction and discussion. The organizing committee has planned a wide variety of scientific and social activities, including technical paper presentations, keynote lectures, presentation of projects, laboratories activities, recent PhD thesis, discussion panels, a round table, and awards to the best thesis and papers. The program of IberSPEECH2020 includes a total of 32 contributions that will be presented distributed among 5 oral sessions, a PhD session, and a projects session. To ensure the quality of all the contributions, each submitted paper was reviewed by three members of the scientific review committee. All the papers in the conference will be accessible through the International Speech Communication Association (ISCA) Online Archive. Paper selection was based on the scores and comments provided by the scientific review committee, which includes 73 researchers from different institutions (mainly from Spain and Portugal, but also from France, Germany, Brazil, Iran, Greece, Hungary, Czech Republic, Ucrania, Slovenia). Furthermore, it is confirmed to publish an extension of selected papers as a special issue of the Journal of Applied Sciences, “IberSPEECH 2020: Speech and Language Technologies for Iberian Languages”, published by MDPI with fully open access. In addition to regular paper sessions, the IberSPEECH2020 scientific program features the following activities: the ALBAYZIN evaluation challenge session.Red Española de Tecnologías del Habla. Universidad de Valladoli

xxAI - Beyond Explainable AI

This is an open access book. Statistical machine learning (ML) has triggered a renaissance of artificial intelligence (AI). While the most successful ML models, including Deep Neural Networks (DNN), have developed better predictivity, they have become increasingly complex, at the expense of human interpretability (correlation vs. causality). The field of explainable AI (xAI) has emerged with the goal of creating tools and models that are both predictive and interpretable and understandable for humans. Explainable AI is receiving huge interest in the machine learning and AI research communities, across academia, industry, and government, and there is now an excellent opportunity to push towards successful explainable AI applications. This volume will help the research community to accelerate this process, to promote a more systematic use of explainable AI to improve models in diverse applications, and ultimately to better understand how current explainable AI methods need to be improved and what kind of theory of explainable AI is needed. After overviews of current methods and challenges, the editors include chapters that describe new developments in explainable AI. The contributions are from leading researchers in the field, drawn from both academia and industry, and many of the chapters take a clear interdisciplinary approach to problem-solving. The concepts discussed include explainability, causability, and AI interfaces with humans, and the applications include image processing, natural language, law, fairness, and climate science.https://digitalcommons.unomaha.edu/isqafacbooks/1000/thumbnail.jp