Researcher Profile

Dipl.-Ing. Martin Bachler BSc

Dipl.-Ing. Bachler BSc

Function

Engineer

Center

Health & Bioresources

Business Unit

Biomedical Systems

E-Mail

Martin.Bachler(at)ait.ac.at

Phone

+43 50550 4844

Address

Tech Gate Vienna, Donau-City-Strasse 1, 1220 Vienna

Career

Area: Biomedical & Biomolecular Health Solutions

Field: Preclinical and Clinical Diagnostics

Main Research: ECG Analysis, Pulse Wave Analysis

Experience:

  • Biomedical signal acquisition, processing & analysis
  • Pattern recognition and classification in signals and images
  • Mathematical modelling & simulation
  • Medical statistics, data exploration and visualisation

  • 2008-2009: Summer intern & freelancer
    Austrian Research Centers GmbH - ARC / Austria
  • 2009-2014: Research Fellow
    AIT Austrian Institute of Technology GmbH / Austria
  • 2015-: Research Engineer
    AIT Austrian Institute of Technology GmbH / Austria
  • 2013-: University Lecturer
    Vienna University of Technology / Austria

Publications

  • Online and Offline Determination of QT and PR Interval and QRS Duration in Electrocardiography
    Author(s): M. Bachler, C. Mayer, B. Hametner, S. Wassertheurer, and A. Holzinger
    Journal: Lecture Notes in Computer Science, 7719 (2013) ; 1 - 15
  • Selection of entropy-measure parameters for knowledge discovery in heart rate variability data
    Author(s): C. Mayer, M. Bachler, M. Hortenhuber, C. Stocker, A. Holzinger, and S. Wassertheurer
    Journal: BMC Bioinformatics, 15(Suppl 6) (2014) ; S2
  • Entropy-based data mining on the example of cardiac arrhythmia suppression
    Author(s): M. Bachler, M. Hörtenhuber, C. Mayer, A. Holzinger, and S. Wassertheurer
    Journal: Lecture Notes in Computer Science, 8609 (2014) ; 574 - 585
  • Feasibility of oscillometric aortic pressure and stiffness assessment using the VaSera VS-1500: comparison with a common tonometric method
    Author(s): S. Endes, M. Bachler, Y. Li, C. Mayer, H. Hanssen, B. Hametner, A. Schmidt-Trucksäss, and S. Wassertheurer
    Journal: Blood Pressure Monitoring, 20 (2015) ; 273 - 279
  • Comparison of transit time estimation methods for the determination of pulse wave velocity
    Author(s): M. Bachler, B. Hametner, C. Mayer, T. Weber, B. Eber, and S. Wassertheurer
  • Increasing Stability of Real-Time Pulse Wave Velocity Estimation by Combining Established and New Approaches
    Author(s): M. Bachler, C. Mayer, B. Hametner, and S. Wassertheurer
  • Automated verification of cardiovascular models with continuous integration tools
    Author(s): M. Bachler, B. Hametner, C. Mayer, J. Kropf, M. Gira, and S. Wassertheurer
  • Simulation of Physiologic Ectopic Beats in Heartbeat Intervals to Validate Algorithms
    Author(s): M. Bachler, M. Hörtenhuber, M. Frank, S. Wassertheurer, and C. Mayer
  • Modelling and Simulation of the Heart Circulation (2013)
    Vienna University of Technology
  • Modelling and Simulation of the Heart Circulation (2014)
    Vienna University of Technology
  • Preparatory Course Mathematics (2014)
    Vienna University of Technology
  • Modelling and Simulation of the Heart Circulation (2015)
    Vienna University of Technology
  • Preparatory Course Mathematics (2015)
    Vienna University of Technology
  • Modelling and Simulation of the Heart Circulation (2016)
    Vienna University of Technology
  • Preparatory Course Mathematics (2016)
    Vienna University of Technology
  • Biosignal analysis using Matlab (2016)
    Vienna University of Technology

Further Information

Back