• Data analyses procedure

    Developing a strong computing procedure to extract the physical coherence (symmetry factor, correlation function) of gigaoctet of raws data and quantify the amplitude of motion of DNA/particles complexes (experimental and computational data), then applied first step of analyses.
    Analysing large-scale genomic data from high-throughput ChipSeq and RNASeq sequencing (pipeline process , BWT algorithms, peakcaller software)

    Statistical analysis:
    Developing and adapting regular statistical tools to extract specific pattern of gene expression level in a circadian system (mices) or cell differentiation context.
    Investigating the dynamic of lamina-associated domains behavior and 3D configuration across circadian rythme or cell differentiation.

  • Modeling

    Approach: Kinetic Monte-Carlo simulation.

  • Informatics

    Softwares: Mathematica, Labview, Octave, Matlab
    Languages: C++, C, R, Fortran, bash scripts, Geany (IDE).
    Tools: GIMP, Inkscape, Pymol, gnuplot, Scribus (PAO), Chimeria, IGV(B)
    Office tools: LaTeX, Beamer, OpenOffice and Microsoft office
    Systems: Linux (Ubuntu), Windows.

  • Microscopy

    Techniques: STM, MEB, fluorescence and dark field microscopy.
    Analysis: ImageJ.

  • Surface treatment process

    Chemical treatment: epoxydation, thiolisation, piranha.
    Physical treatment: Plasma cleaner, UV ozone.
    Method: spin coating, deposit convective self-assembly.

  • Characterization technique

    DLS, Zetasizer, UV spectroscopy, quantification PCR.

  • Languages

    English: TOEIC Score 775 (in 2014)
    German: Conversational basics.

If you would like more information here it is my CV