Veranstaltungen am Institut und mit Beteiligung des MPE

Munich - Garching LSS day at MPE

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Munich - Garching LSS day at MPE

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ESO Informal Discussion

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What to publish where?

[mehr]

SESTAS at MPA

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The Destructive Birth of Massive Stars and Massive Star Clusters

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USM Colloquium

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Gravity-driven Star Formation

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USM Colloquium

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Fuel and Feedback in Galaxy Evolution

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Cosmology Lectures

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Effective Field Theory of Inflation

[mehr]

Munich Joint Astronomy Colloquium

Stellar Coffee and Planetary Tea

Bayes-Forum

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On the Confluence of Deep Learning and Proximal Methods

  • Datum: 01.06.2018
  • Uhrzeit: 14:00 - 15:00
  • Vortragender: Daniel Cremers (TU München)
  • Daniel Cremers received Bachelor degrees in Mathematics (1994) and Physics (1994), and a Master's degree (Diplom) in Theoretical Physics (1997) from the University of Heidelberg. In 2002 he obtained a PhD in Computer Science from the University of Mannheim, Germany. Subsequently he spent two years as a postdoctoral researcher at the University of California at Los Angeles (UCLA) and one year as a permanent researcher at Siemens Corporate Research in Princeton, NJ. From 2005 until 2009 he was associate professor at the University of Bonn, Germany. Since 2009 he holds the chair for Computer Vision and Pattern Recognition at the Technical University, Munich. His publications received numerous awards. For pioneering research he received a Starting Grant (2009), a Proof of Concept Grant (2014) and a Consolidator Grant (2015) from the European Research Council. In December 2010 he was listed among "Germany's top 40 researchers below 40" (Capital). Prof. Cremers received the Gottfried-Wilhelm Leibniz Award 2016, the most important research award in German academia.
  • Ort: MPA
  • Raum: New Seminar Room, E 0.11
  • Gastgeber: MPA

Abstract: While numerous low-level computer vision problems such as denoising, deconvolution or optical flow estimation were traditionally tackled with optimization approaches such as proximal methods, recently deep learning approaches trained on numerous examples demonstrated impressive and sometimes superior performance on respective tasks. In my presentation, I will discuss recent efforts to bring together these seemingly very different paradigms, showing how deep learning can profit from proximal methods and how proximal methods can profit from deep learning. This confluence allows to boost deep learning approaches both in terms of drastically faster training times as well as substantial generalization to novel problems that differ from the ones they were trained for (generalization / domain adaptation). [mehr]

Café & Kosmos

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Das Neutrino auf der Waage

Das Neutrino ist eines der faszinierendsten Teilchen im Standardmodell der Teilchenphysik. Es fliegt durch Materie hindurch ohne Spuren zu hinterlassen. Es spielt eine wichtige Rolle bei der Entwicklung von Strukturen im frühen Universum. Eines der großen Rätsel, das uns das Neutrino bis heute aufgibt ist seine Masse – bisher lässt sich nicht eindeutig feststellen, wie schwer es wirklich ist. Ein neues Instrument soll hier Klarheit bringen: Am 11. Juni 2018 wird das KATRIN-Experiment eingeweiht. Dr. Susanne Mertens vom Max-Planck-Institut für Physik erklärt, wie diese „Neutrinowaage“ funktioniert und welche Schlussfolgerungen sich aus der Neutrinomasse ziehen lassen. Mit ihrer Gruppe fahndet sie außerdem nach sterilen Neutrinos: Diese bisher unbekannte Neutrino-Variante kommt als weiterer Kandidat für Dunkle Materie infrage. [mehr]

 
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