Teaching

Please see the lab’s teaching page for this term’s offered courses at TUB.

Most of my material (LaTeX sources of slides and exercises) is now accessible on github. (See the tmp branch for yet non-polished sets of slides.)

Here you find full slide collections and scripts for my courses, and at the bottom of this page:

Full slide collections and scripts

Courses

WS 20/21 - Optimization Algorithms
(Previous versions: SS 14, SS 13)
SS 20 - AI & Robotics: Research
See general information here.
SS 20 - AI & Robotics: Lab Course
See general information here.
WS 19/20 - Maths for Intelligent Systems
(Previous versions: WS 18/19, WS 16/17, WS 15/16)
WS 19/20 - Artificial Intelligence Bachelor Course
(Previous versions: WS 18/19, WS 16/17, WS 15/16, WS 14/15)
Introduction to Machine Learning (SS 19)
The Machine Learning course first covers basic regression and classification methods (e.g. Bayesian Kernel Ridge Logistic Regression…) and then focusses on Bayesian formulations of learning (Bayes nets, probabilistic inference)
In Stuttgart I plan to iterate the course every summer.
Previous versions are: U Stuttgart: SS 16, SS 15, SS 14, SS 13 FU Berlin: SS 12, SS 11 TU Berlin: SS 09 (Introduction to Graphical Models)
Introduction to Robotics (WS 14/15)
The Robotics course covers the basics of motion generation (kinematics, dynamics, planning, control) as well as state estimation (in mobile robotics).
In Stuttgart I plan to iterate the course every winter.
Previous versions are: U Stuttgart: WS 13/14 FU Berlin: WS 12/13, WS 11/12, WS 10/11

WS 14/15 - Hauptseminar: Machine Learning

SS 14 - Hauptseminar: Robotics

WS 13/14 - Hauptseminar: Machine Learning

WS 13/14 - Foundations of Autonomous Systems

SS 13 - Hauptseminar: Topics in Robotics

Tutorials

Brief Intro to Gaussian Processes
SimTech ML Seminar, Feb 5 2020.
Bandits, Global Optimization, Active Learning, and Bayesian RL – understanding the common ground
[old version] A brief (90mins) tutorial held first at the Machine Learning Summer School, Tübingen, Sep 2013; and later at the Autonomous Learning Summer School, Leipzig, Sep 2014. The aim is to introduce to various problems from the perspective of belief planning and discuss what optimal policies would be. Pointers to more in-depth literature are provided. See a video here.

ICML 2011 Tutorial on Machine Learning & Robotics

Machine Learning tutorial at the Interdisciplinary College 2011
The 3 basic lectures target an interdiciplinary audience (students from Computer Sci, Cog Science, Neuroscience, Psychology), covering basics in ML, Bayesian Modelling, and RL:
  • 1. Introduction
  • 2. Linear Models (non-linear features, regularization, cross-validation, ``linear/polynomial/kernel Ridge/Lasso regression/logistic classification’’)
  • 3. Bayesian Modelling (Bayes, examples, regularization & prior, error & likelihood, MAP view on Ridge/Lasso regression, EM, Bayes Nets)
  • 4. Reinforcement Learning (Markov Decision Process, values, temporal difference, model-free vs. model-based, planning by probabilistic inference)
BCCN lecture Computational models of goal-directed behavior
slides, exercise
RLSS 09 - Inference & Planning
Lectures given at the Robot Learning Summer School (Lisbon, July 20-24 2009).
Slides: part 1, part 2
ICML 08 tutorial - Stochastic Optimal Control

Tutorial, held together with Bert Kappen on Saturday July 5 2008 in Helsinki, Finland as part of the 25th International Conference on Machine Learning (ICML 2008).

See the tutorial web page.

Interesting Readings

Reference Material

Linear algebra references

Probabilities & Machine Learning

Optimization

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