Dr.-Ing. Andreas Wagner

General

Education

  • 2002 - 2006: Surveying and Geoinformation, University of applied science Würzburg-Schweinfurt
    Degree: Diplom Ingenieur (FH)
  • 2008 - 2010: Geodesy and Geoinformation, Technical University Munich
    Degree: Master of Science
  • 2017: Doctorate, Technical University Munich
    Degree: Doktor-Ingenieur

Professional activity

Memberships

Research

Field of Work

  • Engineering Geodesy 
  • Image Assisted Total Stations
  • Structural Monitoring
  • Geo-Monitoring
  • Laser scanning

Research Projects

  • 2010 - 2012: A Case Study of Online-Monitoring of Bridges
  • 2012 - 2014: DE-MONTES 
    Deformation Monitoring by High Resolution Terrestrial Long Range Sensing

Teaching

Lectures/Practicals

  • Basic Elements of GPS
  • Engineering Surveying - Practical Training
  • Field Course - Surveying
  • Field Course for Civil and Environmental Engineers
  • Labs in Geolocation and Navigation Techniques
  • Labs in Surveying 2 for Civil and Environmental Engineers
  • Labs in Surveying 2 for Surveyors

Supervised theses

  • F. Bletzinger (ongoing): 6DOF tracking of moved objects, Master’s Thesis
  • L. Raffl (2017): Structural monitoring without signalized targets, Master’s Thesis
  • T. Kopp (2017): Structural monitoring using low-cost GNSS, Master’s Thesis
  • S. Bäuml (2017): Development of a geodetic low-cost monitoring system, Bachelor's Thesis
  • A. Kalischko (2017): Evaluation of the calibration of a mobile mapping system consisting of cameras and laser scanners, Master’s Thesis
  • J. Pimpi (2016): Development and evaluation of a low-cost GNSS system for decimeter-accurate, real-time positioning, Master’s Thesis
  • B. Schestauer (2016): 6DOF-IATS measurement system, Bachelor's Thesis
  • S. Bauer (2015) The use of BIM in engineering geodesy, Master’s Thesis
  • L. Raffl (2015): Interactive simulation tool to visualize the standard position error of single point determinations, Bachelor's Thesis
  • Ch. Lichtenberger (2015): Using digital levelling rods and on axis cameras of modern total stations for automated height determination, Bachelor's Thesis
  • S. Briechle (2014): Evaluation of non-contact 3D measurement methods using a Leica MS50, Master’s Thesis
  • Z. Dobrosavljevic (2014): Deriving deformation parameter from point clouds using ICP algorithms, Master’s Thesis
  • M. Fischell (2013): Automatic crack monitoring with image-assisted total stations, Master’s Thesis

Publications

Journal articles

[30] Wiedemann W., Wagner A., Wasmeier P., Wunderlich Th. (2017)
Monitoring mit scannenden bildgebenden Tachymetern
Terrestrisches Laserscanning 2017 (TLS 2017). Schriftenreihe des DVW, Vol. 88, pp. 31-44.
[29] Wiedemann W., Wagner A., Wunderlich Th. (2017)
Ableitung von 3D-Verschiebungsvektoren aus fusionierten Laserscan- und Bilddaten
avn - Allgemeine Vermessungs-Nachrichten, Vol. 124, Issue 11-12, pp. 362-369.
[28] Wagner A., Wiedemann W., Wunderlich Th. (2017)
Fusion of laser-scan and image data for deformation monitoring – Concept and perspective
INGEO 2017. Proceedings of the 7th International Conference on Engineering Surveying. Lisbon, Portugal, pp. 157-164.
[27] Paar R., Marendić A., Wagner A., Wiedemann, W., Wunderlich, T., Roić, M. and Damjanović, D. (2017)
Using IATS and digital levelling staffs for the determination of dynamic displacements and natural oscillation frequencies of civil engineering structures
INGEO 2017. Proceedings of the 7th International Conference on Engineering Surveying. Lisbon, Portugal, pp. 49-58.
[26] Wagner A. (2017)
Zerstörungsfreie Untersuchung eines BMW 328 Wendler-Stromliniencoupés
GeoNews, Issue 3, pp. 6-7.
[25] Wiedemann W., Wagner A., Wunderlich Th. (2017)
Nivellieren mit bildunterstützten Totalstationen (Reprint of [24])
avn - Allgemeine Vermessungs-Nachrichten, Vol. 124, Issue 7, pp. 211-219.
[24] Wiedemann W., Wagner A., Wunderlich Th. (2017)
Nivellieren mit bildunterstützten Totalstationen
Ingenieurvermessung 17. Proceedings of the 18th international Ingenieurvermessungskurs Graz, 2017. Wichmann Verlag, Berlin, pp. 47-62.
[23] Schestauer B., Wagner A., Wiedemann W., Wunderlich Th. (2017)
Tachymetrisches 6 DoF Messverfahren
Ingenieurvermessung 17. Proceedings of the 18th international Ingenieurvermessungskurs Graz, 2017. Wichmann Verlag, Berlin, pp. 213-220, (associated poster).
[22] Wagner A. (2017)
New Geodetic Monitoring Approaches using Image Assisted Total Stations
PhD Thesis, Technical University Munich, Department of Civil, Geo and Environmental Engineering, Munich.
[21] Zhou Y., Wagner A., Wunderlich Th., Wasmeier P. (2017)
Calibration Method for IATS and Application in Multi-Target Monitoring Using Coded Targets
Journal of Applied Geodesy, Vol. 11, Issue 2, DOI: 10.1515/jag-2016-0021, pp. 99-106.
[20] Wagner A., Wiedemann W., Wasmeier P., Wunderlich Th. (2016)
Improved concepts of using natural targets for geo-monitoring (Reprint of [17])
COORDINATES, Vol. XII, Issue 12, pp. 32-35.
[19] Wagner A., Wiedemann W., Wunderlich Th. (2016)
Using IATS to Read and Analyze Digital Leveling Staffs
International Symposium on Engineering Geodesy - SIG 2016. Varaždin, Croatia, 20th - 22nd May, pp. 515-526.
[18] Wagner A., Wiedemann W., Wasmeier P., Wunderlich Th. (2016)
Monitoring Concepts Using Image Assisted Total Stations
International Symposium on Engineering Geodesy - SIG 2016. Varaždin, Croatia, 20th - 22nd May, pp. 137-148.
[17] Wagner A., Wiedemann W., Wasmeier P., Wunderlich Th. (2016)
Improved concepts of using natural targets for geo-monitoring
JISDM. 3rd Joint International Symposium on Deformation Monitoring. Vienna, March 30. - April 1., CD-ROM.
[16] Zhou Y., Wagner A., Wunderlich Th., Wasmeier P. (2016)
Calibration Method for IATS and Application in Multi-Target Monitoring using Coded Targets
JISDM. 3rd Joint International Symposium on Deformation Monitoring. Vienna, March 30. - April 1., CD-ROM.
[15] Wasmeier P., Wagner A. (2016)
Bildgestützte Messverfahren in der modernen Tachymetrie
Messtechnik im Bauwesen, March 2016, pp. 17-20.
[14] Wagner A. (2016)
A new approach for geo-monitoring using modern total stations and RGB + D images
Measurement, Vol. 82, March 2016, DOI: 10.1016/j.measurement.2015.12.025, pp. 64-74.
[13] Zhou Y., Wagner A., Wunderlich Th., Wasmeier, P. (2015)
Close Range Angles Deformation Monitoring by Telescope Camera of Total Station MS50 using Automatic Detection of Coded Targets
Proceedings of 2nd Int. Workshop on Civil Engineering and Architecture, pp. 153-162.
[12] Wunderlich Th., Wasmeier P., Wagner A. (2014)
Auf dem Weg zum geodätischen Universalinstrument – wie nahe am Ziel sind IATS und MS50?
Terrestrisches Laserscanning 2014 (TLS 2014). Schriftenreihe des DVW, Vol. 78, pp. 177-192.
[11] Wiedmann W., Wagner A. (2014)
Mobile Mapping System Calibration - A new approach based on rectilinear motion
MoLaS - Mobile Laser Scanning Technology Workshop (Poster).
[10] Wagner A., Huber B., Wiedemann W., Paar, G. (2014)
Long-Range Geo-Monitoring using Image Assisted Total Stations
Journal of Applied Geodesy, Vol. 8, Issue 3, DOI: 10.1515/jag-2014-0014, pp. 223-234.
[9] Wagner A., Wasmeier P. (2014)
Flächen- und Feature-basiertes Monitoring mit Videotachymetern
Multi-Sensor-Systeme – Bewegte Zukunftsfelder. Schriftenreihe des DVW, Vol. 75, pp.75-88.
[8] Wagner A., Wasmeier P., Wunderlich Th., Ingensand H. (2014)
Vom selbstzielenden Theodolit zur Image Assisted Total Station
avn - Allgemeine Vermessungs-Nachrichten, Vol. 121, Issue 5, pp. 171-180.
[7] Wagner A., Wasmeier P., Reith Ch., Wunderlich Th. (2013)
Bridge Monitoring By Means Of Video-Tacheometer – A Case Study
avn - Allgemeine Vermessungs-Nachrichten, Vol. 120, Issue 8-9, pp. 283-292.
[6] Wagner A., Stylianidis E., Smagas K., Trdlicka J., Paar G., Huber B., Reith Ch., Reiterer A. (2013)
Geo-Monitoring By High-Resolution Optical Sensors
Photogrammetrie - Laserscanning - Optische 3D-Messtechnik. Beiträge der Oldenburger 3D-Tage 2013; Wichmann H., Berlin, pp. 166-177.
[5] Wagner A., Reiterer A., Wasmeier P., Rieke-Zapp D., Wunderlich Th. (2012)
Vision-Based Geo-Monitoring – A New Approach for an Automated System
Geophysical Research Abstracts, Vol. 14, EGU2012-7714, EGU General Assembly 2012 (Poster).
[4] Reiterer A., Wagner A. (2012)
System Considerations of an Image Assisted Total Station – Evaluation and Assessment
avn - Allgemeine Vermessungs-Nachrichten, Vol. 119, Issue 3, pp. 83-94.
[3] Ertac Ö., Kutzner T., Banfi D., Bärschmann A., Bleifuß R., Groß A., Kunert M., Moraru D., Sigloch P., Wagner A., Wanasky S. (2009)
Intergeo 2009 Trend Analysis - A Report on the Sector Trends
GeoInformatics Magazine, Oct./Nov. 2009, Vol. 12, Issue 7, pp. 22-23.
[2] Kutzner T., Banfi D., Bärschmann A., Bleifuß R., Groß A., Kunert M., Moraru D., Sigloch P., Wagner A., Wanasky S. (2009)
3D ist in
GIS.BUSINESS, 8/2009, pp. 8-13.
[1] Kutzner T., Banfi D., Bärschmann A., Bleifuß R., Groß A., Kunert M., Moraru D., Sigloch P., Wagner A., Wanasky S. (2009)
Die INTERGEO 2009 – auf 25.000 Quadratmetern die ganze Welt in 3D
zfv - Zeitschrift für Geodäsie, Geoinformation und Landmanagement, 6/2009, pp. 382-389.

Presentations

[15] Wagner A.
Fusion of laser-scan and image data for deformation monitoring – Concept and perspective
7th International Conference on Engineering Surveying (INGEO2017), 19.10.2017, Lisbon, Portugal
[14] Wagner A.
Vom selbstzielenden Theodolit zur Image Assisted Total Station
INTERGEO Kongress, 26.09.2017, Berlin
[13] Wagner A.
Nivellieren mit bildunterstützten Totalstationen
18. International Course on Engineering Geodesy, 27.04.2017, Graz, Austria
[12] Wieser A., Wunderlich Th., Wagner A., Wiedemann W., Presl R.
Monitoring mit Terrestrischem Laserscanning
Tutorial, 18. International Course on Engineering Geodesy, 25.04.2017, Graz, Austria
[11] Wagner A.
Fusion of Laser- and Image-Base Data Sets – Concepts and Perspectives
MoLaS Technology Workshop 2016, 23.05.2016, Freiburg
[10] Wagner A.
Monitoring Concepts Using Image Assisted Total Stations
International Symposium on Engineering Geodesy - SIG 2016, 21.05.2016, Varaždin, Croatia
[9] Wagner A.
Improved concepts of using natural targets for geo-monitoring
3rd Joint International Symposium on Deformation Monitoring (JISDM), 31.03.2016, Vienna, Austria
[8] Wasmeier P., Wagner A.
Bildgebende Tachymeter und Scanning – Mehr Wert auf Knopfdruck?
Geodetic Colloquium at Karlsruhe Institute of Technology, 21.01.2016, Karlsruhe
[7] Wagner A.
Bildgestütztes Monitoring mit Videotachymetern
Doctoral seminar to the DGK - section Engineering Geodesy, 07.05.2015, Stuttgart
[6] Wagner A., Wasmeier, P., Wunderlich, Th.
Tutorial Videotachymetrie
17. Internationaler Ingenieurvermessungskurs, 15.01.2014, Zurich, Switzerland
[5] Wagner A.
Image Assisted Total Stations: Prospects for Deformation Monitoring
2nd Joint International Symposium on Deformation Monitoring (JISDM), 10.09.2013, Nottingham, UK
[4] Wagner A.
Geo-Monitoring mithilfe hochauflösender optischer Sensorik
Optische 3D-Messtechnik - Photogrammetrie - Laserscanning, 12. Oldenburger 3D-Tage, 14.02.2013, Oldenburg
[3] Wagner A., Reith Ch.
Natural hazard monitoring
Series of lectures "Fa. NavGEOcom - Surveying in Construction Engineering", 21.11.2012, Munich
[2] Wagner A.
Der Einsatz von bildgebenden Tachymetersystemen für das Geo-Monitoring
Workshop "Videotachymetrie – Wege in eine intelligente Zukunft", 10.09.2012, Munich
[1] Wagner A.
3D Facility Management Based on CityGML
Autodesk University 2009, 3.12.2009, Las Vegas (NV), US

Awards

Best Presentation Award. International Symposium on Engineering Geodesy - SIG 2016