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Robert Seifert

Electrical Engineer and Researcher at Dresden University of Technology

Dresden, Germany
github.com/thewaywewalk
Last seen on Stack Overflow today

Technologies

Preferred technologies
Top Percentiles
Top 1%
Top 5%

Intro Statement

Cos hell´s boiling over and heaven is full we´re chained to the world and we all gotta pull.

Tom Waits once said that. To make that pulling a little easier, we all need to follow unconventional ideas, in politics, religion as well as technology.

Everybody should support innovative technologies, passive by using them or active in development. The part of the engineers is e.g. to slow down the climate change. I'm looking for a position in research and development in the fields of magnetic bearings, linear drives, simulation modeling or electrical drives for cars. And maybe my grandchildren once will tell their grandchildren: Once upon a time, there was a world with fossil fuels...

Experience

Electrical Engineer and Researcher

Dresden University of Technology

Apr 2015 → Current (4 years, 7 months)

Researcher and PhD-Student at the chair of electrical machines and drives.

Diploma Student

Dresden University of Technology

Mar 2014 → Nov 2014 (9 months)

Research during diploma thesis ""Investigations on the eddy current time constant of a magnetic thrust bearing"

Expansion of existing analytical models of magnetic thrust bearing including eddy currents for the application of soft magnetic compound materials and mixed materials of both sides of the air gap.

Student apprentice

Fraunhofer IWU

Aug 2013 → Dec 2013 (5 months)

Project work: Modelling of a coupled simulation of a servo press including nested control circuits and mechanical damping systems

Student apprentice

Siemens Energy

Mar 2011 → Apr 2011 (2 months)

Assistant in the test field for high voltage switch gears.

Education

Diploma in Electrical Engineneering

Dresden University of Technology

2008 → 2014

Majoring in

  • Electrical machines
  • Electrical drives: rotating and linear drives
  • Magnetic bearings
  • Matlab/Simulink programming
  • Finite Element Modelling
  • Control Design

Master's degree

Polytechnic University of Catalonia - BarcelonaTech

2012 → 2013

Thesis: Multiobjective Optimization of IPM synchronous motors using Response Surface Methodology and filtered Monte Carlo approach

Especially buried magnets enable a superior field weakening ability but require an exceptional design effort. Costly Finite Elements computations are inevitable for consideration of the occurring non-linearities and non-trivial magnet shapes. The Response Surface Methodology can reduce the number of FE runs significantly by introducing a acceptably exact second order regression model based on a few carefully chosen design samples.

Top Posts

1

Sum up vector values till threshold, then start again

Jun 2017
By normalizing the arguments of cumsum with the threshold and flooring you can get grouping indizes for accumarray, which then can do the cumsumming groupwise: t = 5; a = [1 3 4 2 1 5 6 3 2]; %// ...

Stack Exchange

Community Name
Reputation

Public Artifacts

Multiobjective optimization of IPM synchronous motor using Response Surface Methodology and filtered Monte Carlo approach

Permanent Magnet Synchronous Motors offer high efficiency and power density besides low assembly effort and hence have been established in a wide market over the past years. Especially buried magnets enable a superior field weakening ability but require an exceptional design effort. Costly Finite Elements computations are inevitable for consideration of the occurring non-linearity and non-trivial magnet shapes. The Response Surface Methodology can reduce the number of FE runs significantly by introducing an acceptably exact second order regression model based on a few carefully chosen design samples. Instead of commonly used, but time-consuming Evolutionary Strategy methods, the Monte Carlo approach is applied for optimization. Using simple filter algorithms, distinctive Pareto frontiers can be determined quickly and related to their causative motor designs.

Tools

First computer Intel 486
Favorite editor Visual Studio Code

Others

Background

Background

For my future career I see myself working in research and development in the fields of magnetic bearings, linear drives, modelling or electrical drives for cars.

And maybe at some time I can work on the Hyperloop Train project of Tesla Motors, Palo Alto, CA.

I like traveling and photography and plan to spend some months in Latin America to consolidate my Spanish language skills.

Cos hell´s boiling over and heaven is full we´re chained to the world and we all gotta pull.

Tom Waits once said that. To make that pulling a little easier, we all need to follow unconventional ideas, in politics, religion as well as technology.

Everybody should support innovative technologies, passive by using them or active in development. The part of the engineers is e.g. to slow down the climate change. I'm looking for a position in research and development in the fields of magnetic bearings, linear drives, simulation modeling or electrical drives for cars. And maybe my grandchildren once will tell their grandchildren: Once upon a time, there was a world with fossil fuels...

Technical Skills

Likes: matlab simulink python r c c++ latex

Experience

Apr 2015 → Current Electrical Engineer and Researcher Dresden University of Technology
matlab, simulink, python, c, vbscript, cad, numerical-methods

Researcher and PhD-Student at the chair of electrical machines and drives.

Mar 2014 → Nov 2014 Diploma Student Dresden University of Technology
matlab, simulink, cad, vbscript, python

Research during diploma thesis ""Investigations on the eddy current time constant of a magnetic thrust bearing"

Expansion of existing analytical models of magnetic thrust bearing including eddy currents for the application of soft magnetic compound materials and mixed materials of both sides of the air gap.

Aug 2013 → Dec 2013 Student apprentice Fraunhofer IWU
matlab, simulink, python

Project work: Modelling of a coupled simulation of a servo press including nested control circuits and mechanical damping systems

Mar 2011 → Apr 2011 Student apprentice Siemens Energy
excel, image-processing

Assistant in the test field for high voltage switch gears.

Education

2008 → 2014 Diploma in Electrical Engineneering Dresden University of Technology
matlab, simulink, cad, java, c, assembly

Majoring in

  • Electrical machines
  • Electrical drives: rotating and linear drives
  • Magnetic bearings
  • Matlab/Simulink programming
  • Finite Element Modelling
  • Control Design
2012 → 2013 Master's degree Polytechnic University of Catalonia - BarcelonaTech
matlab, mathcad, lua, cad

Thesis: Multiobjective Optimization of IPM synchronous motors using Response Surface Methodology and filtered Monte Carlo approach

Especially buried magnets enable a superior field weakening ability but require an exceptional design effort. Costly Finite Elements computations are inevitable for consideration of the occurring non-linearities and non-trivial magnet shapes. The Response Surface Methodology can reduce the number of FE runs significantly by introducing a acceptably exact second order regression model based on a few carefully chosen design samples.

Projects & Interests

Jul 2013 → Current Stack Overflow https://stackoverflow.com/users/2605073/thewaywewalk
Written 599 answers. Active in matlab and simulink.

Public Artifacts

Multiobjective optimization of IPM synchronous motor using Response Surface Methodology and filtered Monte Carlo approach http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=6960351

Permanent Magnet Synchronous Motors offer high efficiency and power density besides low assembly effort and hence have been established in a wide market over the past years. Especially buried magnets enable a superior field weakening ability but require an exceptional design effort. Costly Finite Elements computations are inevitable for consideration of the occurring non-linearity and non-trivial magnet shapes. The Response Surface Methodology can reduce the number of FE runs significantly by introducing an acceptably exact second order regression model based on a few carefully chosen design samples. Instead of commonly used, but time-consuming Evolutionary Strategy methods, the Monte Carlo approach is applied for optimization. Using simple filter algorithms, distinctive Pareto frontiers can be determined quickly and related to their causative motor designs.

Flickr: 162 millimeters — Flickr: 162millimeters' Photostream http://www.flickr.com/photos/162millimeters/

My Flickr page.

Others

Background Background

For my future career I see myself working in research and development in the fields of magnetic bearings, linear drives, modelling or electrical drives for cars.

And maybe at some time I can work on the Hyperloop Train project of Tesla Motors, Palo Alto, CA.

I like traveling and photography and plan to spend some months in Latin America to consolidate my Spanish language skills.

Tools

First Computer: Intel 486
Favorite Editor: Visual Studio Code