Process-Oriented Stream Classification Pipeline:A Literature Review

Featured Application: Nowadays, many applications and disciplines work on the basis of stream data. Common examples are the IoT sector (e.g., sensor data analysis), or video, image, and text analysis applications (e.g., in social media analytics or astronomy). With our work, we gather different approaches and terminology, and give a broad overview over the topic. Our main target groups are practitioners and newcomers to the field of data stream classification. Due to the rise of continuous data-generating applications, analyzing data streams has gained increasing attention over the past decades. A core research area in stream data is stream classification, which categorizes or detects data points within an evolving stream of observations. Areas of stream classification are diverse—ranging, e.g., from monitoring sensor data to analyzing a wide range of (social) media applications. Research in stream classification is related to developing methods that adapt to the changing and potentially volatile data stream. It focuses on individual aspects of the stream classification pipeline, e.g., designing suitable algorithm architectures, an efficient train and test procedure, or detecting so-called concept drifts. As a result of the many different research questions and strands, the field is challenging to grasp, especially for beginners. This survey explores, summarizes, and categorizes work within the domain of stream classification and identifies core research threads over the past few years. It is structured based on the stream classification process to facilitate coordination within this complex topic, including common application scenarios and benchmarking data sets. Thus, both newcomers to the field and experts who want to widen their scope can gain (additional) insight into this research area and find starting points and pointers to more in-depth literature on specific issues and research directions in the field.</p

Advances in Streaming Novelty Detection

153 p.En primer lugar, en esta tesis se aborda un problema de confusión entre términos y problemas en el cual el mismo término es utilizado para referirse a diferentes problemas y, de manera similar, el mismo problema es llamado con diferentes términos indistintamente. Esto motiva una dificultad de avance en elcampo de conocimiento dado que es difícil encontrar literatura relacionada y propicia la repetición detrabajos. En la primera contribución se propone una asignación individual de términos a problemas y una formalización de los escenarios de aprendizaje para tratar de estandarizar el campo. En segundo lugar, se aborda el problema de Streaming Novelty Detection. En este problema, partiendo de un conjunto de datos supervisado, se aprende un modelo. A continuación, el modelo recibe nuevas instancias no etiquetadas para predecir su clase de manera online o en stream. El modelo debe actualizarse para hacer frente al concept-drift. En este escenario de clasificación, se asume que puedensurgir nuevas clases de forma dinámica. Por lo tanto, el modelo debe ser capaz de descubrir nuevas clases de manera automática y sin supervisión. En este contexto, esta tesis propone 2 contribuciones. En primerlugar una solución basada en mixturas de Guassianas donde cada clase en modelada con una de lascomponentes de la mixtura. En segundo lugar, se propone el uso de redes neuronales, tales como las redes Autoencoder, y las redes Deep Support Vector Data Description para trabajar con serie stemporales

Artificial Intelligence (AI) for Intelligence Transportation Systems (ITS) Challenges and Potential Solutions, Insights, and Lessons Learned

Artificial Intelligence (AI), including Machine Learning (ML), offers the opportunity to make transportation systems safer, and more equitable, reliable, accessible, secure, efficient, and resilient. However, several challenges exist that could impede the successful adoption of AI for Intelligent Transportation Systems (ITS) and the potential realization of these benefits

Accident Investigation and Learning to Improve Safety Management in Complex System: Remaining Challenges: Proceedings of the 55th ESReDA Seminar

Accident investigation and learning from events are fundamental processes in safety management, involving technical, human, organisational and societal dimensions. The European Safety, Reliability and Data Association, ESReDA, has a long tradition in gathering together experts in the field to work together, and to share and explore experiences of using various paradigms, approaches, methods databased and implementation of safety systems across different industries. The 55th ESReDA seminar on “Accident Investigation and Learning to Improve Safety Management in Complex System: Remaining Challenges” attracted more than 80 participants from industry, authorities, operators, research centres and academia. The seminar programme consisted of 22 technical papers, three keynote speeches and a workshop to debate about the remaining challenges of accident investigation and potential innovative breakthroughs.JRC.G.10-Knowledge for Nuclear Security and Safet

3rd International Conference on Advanced Research Methods and Analytics (CARMA 2020)

Research methods in economics and social sciences are evolving with the increasing availability of Internet and Big Data sources of information.As these sources, methods, and applications become more interdisciplinary, the 3rd International Conference on Advanced Research Methods and Analytics (CARMA) is an excellent forum for researchers and practitioners to exchange ideas and advances on how emerging research methods and sources are applied to different fields of social sciences as well as to discuss current and future challenges.Doménech I De Soria, J.; Vicente Cuervo, MR. (2020). 3rd International Conference on Advanced Research Methods and Analytics (CARMA 2020). Editorial Universitat Politècnica de València. http://hdl.handle.net/10251/149510EDITORIA

On utilising change over time in data mining

Magdeburg, Univ., Fak. für Informatik, Diss., 2013von Mirko Böttche

Big Data and Artificial Intelligence in Digital Finance

This open access book presents how cutting-edge digital technologies like Big Data, Machine Learning, Artificial Intelligence (AI), and Blockchain are set to disrupt the financial sector. The book illustrates how recent advances in these technologies facilitate banks, FinTech, and financial institutions to collect, process, analyze, and fully leverage the very large amounts of data that are nowadays produced and exchanged in the sector. To this end, the book also describes some more the most popular Big Data, AI and Blockchain applications in the sector, including novel applications in the areas of Know Your Customer (KYC), Personalized Wealth Management and Asset Management, Portfolio Risk Assessment, as well as variety of novel Usage-based Insurance applications based on Internet-of-Things data. Most of the presented applications have been developed, deployed and validated in real-life digital finance settings in the context of the European Commission funded INFINITECH project, which is a flagship innovation initiative for Big Data and AI in digital finance. This book is ideal for researchers and practitioners in Big Data, AI, banking and digital finance

Big Data and Artificial Intelligence in Digital Finance

This open access book presents how cutting-edge digital technologies like Big Data, Machine Learning, Artificial Intelligence (AI), and Blockchain are set to disrupt the financial sector. The book illustrates how recent advances in these technologies facilitate banks, FinTech, and financial institutions to collect, process, analyze, and fully leverage the very large amounts of data that are nowadays produced and exchanged in the sector. To this end, the book also describes some more the most popular Big Data, AI and Blockchain applications in the sector, including novel applications in the areas of Know Your Customer (KYC), Personalized Wealth Management and Asset Management, Portfolio Risk Assessment, as well as variety of novel Usage-based Insurance applications based on Internet-of-Things data. Most of the presented applications have been developed, deployed and validated in real-life digital finance settings in the context of the European Commission funded INFINITECH project, which is a flagship innovation initiative for Big Data and AI in digital finance. This book is ideal for researchers and practitioners in Big Data, AI, banking and digital finance

Vehicle-to-vehicle communication: design, performance, and disruption mitigation in real-world environment

This thesis investigates the performance of 802.11p-based V2V communication in real-life scenarios, and explores potential practical applications such as GNSS correction data broadcasting to improve the positioning accuracy of nearby vehicles, and enhancing communication robustness by preemptively predicting potential disruptions with the assistance of Machine Learning (ML) models. A custom V2V On-board Unit (OBU) hardware platform was developed, and real- world multi-vehicle outdoor experiments were planned and carried out. The collected data was examined and used to train a number of ML models, and their performance was compared. The experiments revealed that the custom OBU was fully functional, and signal quality and communication range were observed to be affected by real-world imperfections. The GNSS correction data broadcasting was shown to notably increase the positioning accuracy of nearby vehicles, and the ML models trained from Key Performance Indicators (KPIs) demonstrated excellent prediction accuracy, allowing pre-emptive actions to be taken to reduce the downtime from communication disruption