things in order to make them and their surroundings "smart". Ubicomp is a premier venue for presenting research in the design, development, deployment, evaluation and understanding of ubiquitous computing systems. Extensive requirements regarding quality, safety, and documentation as well as high costs for having aircrafts idle during maintenance demand for an efficient execution of the process. Human-Computer Interaction (undergrad level, co-taught with Otmar Hilliges) course; CAS ETH: Applied Information Technology, Humans & Machines CAS; Ubiquitous Computing (master's level, spring 2020) course; Advanced Topics in Technical Human-Computer Interaction (undergrad level, spring 2020) seminar Human-Computer Interaction (undergrad level, co … the area. 24/2003 [9] M. Langheinrich, „Die Privatsphäre im Ubiquitous Computing – Datenschutzaspekte der RFID-Technologie“, ETH Zürich, 2005 Prof. Friedemann Mattern, ETH Zürich Mittwoch 30. Ubiquitous Computing. This website is no longer updated and contains archival information about the activities. Computer Science : Specific topics are: Slides are provided a few days after the respective lecture has taken place. Authors X. Zhang, S. Park, T. Beeler, ... O. Hilliges, A. Butz Publication In a special edition of ACM/Springer Journal of Personal and Ubiquitous Computing, Springer Verlag, Dec 2007 Paper BibTeX. Unlike desktop computing, ubiquitous computing occurs anytime and everywhere, using any device, in any location, and in any format. "Ubiquitous computing" in this context does not just mean computers that can be carried to the beach, jungle or airport. Pervasive Computing : Institute for Pervasive Computing ETH Zurich Universitätstrasse 6 CH-8092 Zurich Switzerland: Office: Phone: Fax: E-mail: Web: CNB H 104.2 +41 44 632 05 36 +41 44 632 16 59 mattern@inf.ethz.ch people.inf.ethz.ch/mattern/ Ubiquitäres Computing (aus englisch ubiquitous computing, kurz ubicomp) auch allgegenwärtiges Rechnen oder zusammen Rechnerallgegenwart bezeichnet die Allgegenwärtigkeit (oder Ubiquität; zu englisch ubiquity, aus lateinisch ubique überall) der rechnergestützten Informationsverarbeitung (kurz EDV, IT oder englisch CAx). The last article is “Location privacy in ubiquitous computing” by Beresford. Ubiquitous computing covers a wide variety of topics, including sensor-rich environments, interactive and smart spaces, new interaction paradigms, Internet of Things, mobile and context-aware computing, awareness and privacy, and tangible, situated, and embodied interaction. which together contribute to the vision of smart environments and incorporating sensing, computation, and communication into everyday Seit Herbst 2002 ist er Gründungsvorstand des Instituts für Pervasive Computing. the "cloud", and communicate with other smart real-world Smart things can detect where they are, sense what is around them, and remember what they were used for previously. computer used as a tool, towards pervasive and invisibly embedded communication technology, the vision of smart environments seems to [7] F. Mattern, „Ubiquitous Computing – Der Trend zur Vernetzung aller Dinge“, ETH Zürich [8] T. Diekmann und S. Hagenhoff, „Ubiquitous Computing: State of the Art”, Arbeitsbericht Nr. Smart 252-0312-00L Ubiquitous Computing. Distributed Systems : From ETH to MIT to Siemens – to TU Wien Informatics 2015 ist das Buch „Rethinking Machine Ethics in the Age of Ubiquitous Technology“ von Jeffrey White (Korean Advanced Institute of Science and Technology, KAIST, Südkorea) und Rick Searle (IEET, USA) erschienen. Please note: the exam covers everything that has been discussed during the lectures. It also discusses economic and social issues The terms “ubiquitous computing” (or “ubicomp” for short), “pervasive computing,” “ambient intelligence,” and “the Internet of Things” refer to technological visions that share one basic idea: to make computing resources available anytime and anywhere, Schlagwort: Ubiquitous Computing. Zusammenfassung. Ubiquitous Computing bears a high potential in the area of aircraft maintenance. ETH World 2000-2005. Grundmotivationen des Ubiquitous Computing – Der Computer als Gebrauchsgegenstand für den Alltag – Die Vernetzung aller Dinge – Die Einbettung des Computers in intuitive Benutzerschnittstellen Education : This article explores the state-of-the-art on the way towards the “Internet of things”. In fact, we are Derzeit leitet er das Fachgebiet "Verteilte Systeme" an der ETH Zürich. Further progress in science and technology will make computing, sensing, and wireless communication ubiquitous. ETH World 2000-2005. If we look at the electronic products around us, ubiquitous computing already exists in our everyday life. They may also Biography . This development promises many interesting computers assisting people in a natural and unobtrusive way. Ubiquitous computing can be viewed as a crucial ingredient in social hackerism. become realizable now. Ubiquitous Computing - Interaktion mit smarten Alltagsdingen. Das ETH-World-Programm ist 2005 zum Abschluss gekommen. 1999 folgte er dem Ruf an die ETH Zürich und begann mit dem Aufbau einer Forschungsgruppe für Ubiquitous Computing. This paper discusses ethical issues in ubiquitous (or pervasive) computing from the perspective of the general discourse on ethics in computing, which started in the 1970s, two decades before the “ubicomp” vision emerged. Computers exist in different forms, from watches and phones to refrigerators or pairs of glasses. While developments in information technology never had the explicit goal of changing society, but rather did so as a side effect, the visions of pervasive and ubiquitous computing expressly propose to transform society by fully computerizing it. For comparison: the vision of Estonia 2010 Around 1995, a development programme called "Estonia 2010" was initiated in Estonia to predict and analyse future trends.The four possible scenarios proposed were witnessing a paradigm shift in computing - away from the desktop Ubiquitous healthcare Ubiquitous healthcare is an emerging field of Prof. Friedemann Mattern, ETH Zürich 30. objects, forming an "Internet of Things". The IFIP “Human Choice and Computers” (HCC) conferences are used as points of reference for the general computing ethics discourse, and three technology … I am a PhD student in the Advanced Interactive Technologies lab at ETH Zurich. Design of Parallel and High-Performance Computing Didactic Basics for Student Teaching Assistants @ ETH Digital Design and Computer Architecture Digital Signatures Digitalization and the Rebound Effect In contrast to desktop computing, ubiquitous computing can occur using any device, in any location, and in any format. The term "ubiquitous computing" describes the idea of incorporating sensing, computation, and communication into everyday things in order to make them and their surroundings "smart". Intensive R&D activities and political strategies are addressing the objective to foster marketable technologies and applications. I'm originally from Munich, Germany where I was born and raised. 2 Friedemann Mattern This lecture is not about algorithms or theoretical CS Classical distributed algorithms (consistent ... Ubiquitous Computing Friedemann Mattern. ETH-XGaze: A Large Scale Dataset for Gaze Estimation under Extreme Head Pose and Gaze Variation. Rethinking Machine Ethics. Our main research interests are around an Internet of Things, smart energy, sensor networks, … Ubiquitous computing (or "ubicomp") is a concept in software engineering and computer science where computing is made to appear anytime and everywhere. connected to these developments. Wednesday, 25th of September 2019, 10:00-11:30, Week 30 Sep - 4 Oct, Exact date and time to be announced soon, The Internet of Things and the Web of Things, Wireless short-distance communication (Bluetooth, NFC), Location awareness and location-based services. interact with humans via mobile devices, use mighty services from The area of visual computing at ETH Zurich groups research activities in computer graphics, computer vision, geometry processing, human-computer interaction and visualization. It has simply not taken the form we initially thought it would and continued to conjure up in our vision of tomorrow. Ubiquitous computing is considered as a promising technological path of innovation. computing technology for medical purposes. The ETH World program came to an end in 2005. Juni 2004, 17:15 Uhr ARCS 2007 is intended for researchers, R&D engineers, and practitioners. Biography . exposes students to the fundamental concepts and technologies in I have double-degree in Human-Computer Interaction & Design from Aalto University, Finland and the University of Twente, the Netherlands. Diese Website wird nicht länger aktualisiert. Er forscht im Bereich Operationsmanagement und betriebswirtschaftlichen Auswirkungen des Ubiquitous Computing. UC FS2019. It is therefore likely that this will have far-reaching consequences for our everyday lives and ethical values. ARCS 2007 will cover a broad range of research topics related to basic technology, architecture, and application of computing systems. Past Courses and Seminars. Advanced Graph Algorithms and Optimization, Advanced Topics in Communication Networks (Autumn 2019), Advanced Topics in Computer Graphics and Vision, Advanced Topics in Machine Learning and Data Science, Advanced Topics in Networked Embedded Systems, Advanced Topics in Technical Human-Computer Interaction, Algorithms for Large-Scale Graph Processing, Applied Analysis of Variance and Experimental Design, Cell and Molecular Biology for Engineers I, Cell and Molecular Biology for Engineers II, Computational Astrophysics (University of Zurich), Computational Challenges in Medical Genomics, Computational Models of Motion for Character Animation and Robotics, Computational Vision (University of Zurich), Data Analysis and Visualisation with Matlab in Earth Sciences, Datacenter Network Monitoring and Management, Deep Learning for Computer Vision: Seminal Work, Design of Parallel and High-Performance Computing, Didactic Basics for Student Teaching Assistants @ ETH, Enabling Entrepreneurship: From Science to Startup, Energy, Resources, Environment: Risks and Prospects, Formal Methods and Functional Programming, From Entrepreneurial Thinking to Market Relevance - How Startups Scale, Hardware Acceleration for Data Processing, Hardware Architectures for Machine Learning, High Performance Computing for Science and Engineering (HPCSE) I, High Performance Computing for Science and Engineering (HPCSE) for Engineers II, How To Give Strong Technical Presentations, Mathematical Foundations of Computer Graphics and Vision, Numerical Analysis of Stochastic Ordinary Differential Equations, Numerical Methods for Partial Differential Equations, Numerical Modelling I and II: Theory and Applications, Physically-Based Simulation in Computer Graphics, Power Market I - Portfolio and Risk Management, Program Analysis for System Security and Reliability, Randomized Algorithms and Probabilistic Methods, Reliable and Interpretable Artificial Intelligence, Seminar in Communication Networks: Learning, Reasoning and Control, Seminar on Randomized Algorithms and Probabilistic Methods, Statistical Models in Computational Biology, Stochastic Methods for Engineers and Natural Scientists, Systems Analysis and Mathematical Modeling in Urban Water Management, Systems Programming and Computer Architecture, Topics at the Intersection between Theoretical Computer Science and other Disciplines, VLSI I: From Architectures to VLSI Circuits and FPGAs, Advanced Corporate Finance I (University of Zurich), Advanced Corporate Finance II (University of Zurich), Advanced Financial Economics (University of Zurich), Advanced Statistical Modelling: Mixed Models, Advanced Topics in Computational Statistics, Colloquium on Mathematics, Computer Science, and Education, Communication in Mathematics (Upgrade 2018 → 2019), Computational Methods for Quantitative Finance: PDE Methods, Data Analytics for Non-Life Insurance Pricing, Discrete-Time and Statistical Signal Processing, Empirical Process Theory and Applications, Field Theory with Symmetries and the Batalin-Vilkovisky Formalism, Financial Engineering (University of Zurich), Financial Risk Management in Social and Pension Insurance, Functional Analysis III, Unitary Representations, Geometry of Numbers (University of Zurich), 263-4203-00L Geometry: Combinatorics and Algorithms, 252-1425-00L Geometry: Combinatorics and Algorithms, Homogeneous Dynamics and Counting Problems, Introduction to Homotopy Theory and Model Category Structure, Lunch Sessions – Thesis Basics for Mathematics Students, Mathematical and Computational Methods in Photonics, Mathematics of (Super-Resolution) Biomedical Imaging, Measurement and Modelling of Travel Behaviour, NCCR SwissMAP – Master Class in Mathematical Physics: Minicourse "Percolation Theory", Non-Life Insurance: Mathematics and Statistics, Numerical Analysis Seminar: Mathematics for Biomimetics, Numerical Analysis Seminar: Mathematics of Deep Neural Network Approximation, Numerical Analysis Seminar: Model Order Reduction and Reduced Bases for PDEs, Numerical Analysis Seminar: Tensor-Structured Methods in Scientific Computing, Numerical Analysis for Elliptic and Parabolic Partial Differential Equations, Numerical Methods for Hyperbolic Partial Differential Equations (University of Zurich), Numerical Modelling of Weather and Climate, O-Minimality and Diophantine Applications, Power Sums of Coxeter Exponents (With Some Insight Into the Evolution of an Article), Quadratic Forms, Markov Numbers and Diophantine Approximation, Reading Course: Functional Analysis III, Unitary Representations, Selected Topics in Life Insurance Mathematics, Semiconductor Devices: Physical Bases and Simulation, Semiconductor Devices: Transport Theory and Monte Carlo Simulation, Signal Analysis, Models, and Machine Learning, Stokes Phenomenon and Isomonodromy Equations, Student Seminar in Mathematics and Data: Optimization of Random Functions, Student Seminar in Statistics: Inference in Non-Classical Regression Models, Student Seminar in Statistics: The Art of Statistics, Talks in Financial and Insurance Mathematics, The Representation Theory of the Finite Symmetric Groups, The Zurich Theoretical Physics Colloquium, Theory and Applications of Machine Learning, Topics in Mathematical Finance and Stochastic Analysis, Ultrasound Fundamentals, Imaging, and Medical Applications, Zurich Colloquium in Applied and Computational Mathematics.
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