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Peer-reviewed journal papers are highlighted.

2020

Zieher T, Pfeiffer J, Rutzinger M, Fritzmann P, Anegg J, Engl D and Lechner V (2020), "Integrated monitoring of a slowly moving deep-seated gravitational slope deformation based on multi-temporal terrestrial laser scanning and total station measurements", In Proceedings of the Disaster Research Days 2020. online series, October, 2020.
BibTeX:
@inproceedings{Zieher2020,
  author = {Zieher, Thomas and Pfeiffer, Jan and Rutzinger, Martin and Fritzmann, Patrick and Anegg, Johannes and Engl, Daniela and Lechner, Veronika},
  editor = {Disaster Competence Center Austria (DCNA)},
  title = {Integrated monitoring of a slowly moving deep-seated gravitational slope deformation based on multi-temporal terrestrial laser scanning and total station measurements},
  booktitle = {Proceedings of the Disaster Research Days 2020},
  year = {2020}
}
Pfeiffer J, Zieher T, Schmieder J, Rutzinger M, Strasser U, Engl D, Anegg J, Spötl C and Lechner V (2020), "Investigating hydrological drivers of a deep-seated gravitational slope deformation – the Vögelsberg case study (Tyrol, Austria)", In Proceedings of the Disaster Research Days 2020. online series, October, 2020.
BibTeX:
@inproceedings{Pfeiffer2020,
  author = {Pfeiffer, Jan and Zieher, Thomas and Schmieder, Jan and Rutzinger, Martin and Strasser, Ulrich and Engl, Daniela and Anegg, Johannes and Spötl, Christoph and Lechner, Veronika},
  editor = {Disaster Competence Center Austria (DCNA)},
  title = {Investigating hydrological drivers of a deep-seated gravitational slope deformation – the Vögelsberg case study (Tyrol, Austria)},
  booktitle = {Proceedings of the Disaster Research Days 2020},
  year = {2020}
}
Kumar P, Debele SE, Sahani J, Aragão L, Barisani F, Basu B, Bucchignani E, Charizopoulos N, Di Sabatino S, Domeneghetti A, Edo AS, Finér L, Gallotti G, Juch S, Leo LS, Loupis M, Mickovski SB, Panga D, Pavlova I, Pilla F, Prats AL, Renaud FG, Rutzinger M, Basu AS, Shah MAR, Soini K, Stefanopoulou M, Toth E, Ukonmaanaho L, Vranic S and Zieher T (2020), "Towards an operationalisation of nature-based solutions for natural hazards", Science of The Total Environment. Vol. 731, pp. 138855.
Abstract: Nature-based solutions (NBS) are being promoted as adaptive measures against predicted increasing hydrometeorological hazards (HMHs), such as heatwaves and floods which have already caused significant loss of life and economic damage across the globe. However, the underpinning factors such as policy framework, end-users' interests and participation for NBS design and operationalisation are yet to be established. We discuss the operationalisation and implementation processes of NBS by means of a novel concept of Open-Air Laboratories (OAL) for its wider acceptance. The design and implementation of environmentally, economically, technically and socio-culturally sustainable NBS require inter- and transdisciplinary approaches which could be achieved by fostering co-creation processes by engaging stakeholders across various sectors and levels, inspiring more effective use of skills, diverse knowledge, manpower and resources, and connecting and harmonising the adaptation aims. The OAL serves as a benchmark for NBS upscaling, replication and exploitation in policy-making process through monitoring by field measurement, evaluation by key performance indicators and building solid evidence on their short- and long-term multiple benefits in different climatic, environmental and socio-economic conditions, thereby alleviating the challenges of political resistance, financial barriers and lack of knowledge. We conclude that holistic management of HMHs by effective use of NBS can be achieved with standard compliant data for replicating and monitoring NBS in OALs, knowledge about policy silos and interaction between research communities and end-users. Further research is needed for multi-risk analysis of HMHs and inclusion of NBS into policy frameworks, adaptable at local, regional and national scales leading to modification in the prevalent guidelines related to HMHs. The findings of this work can be used for developing synergies between current policy frameworks, scientific research and practical implementation of NBS in Europe and beyond for its wider acceptance.
BibTeX:
@article{Kumar2020,
  author = {Prashant Kumar and Sisay E. Debele and Jeetendra Sahani and Leonardo Aragão and Francesca Barisani and Bidroha Basu and Edoardo Bucchignani and Nikos Charizopoulos and Silvana [Di Sabatino] and Alessio Domeneghetti and Albert Sorolla Edo and Leena Finér and Glauco Gallotti and Sanne Juch and Laura S. Leo and Michael Loupis and Slobodan B. Mickovski and Depy Panga and Irina Pavlova and Francesco Pilla and Adrian Löchner Prats and Fabrice G. Renaud and Martin Rutzinger and Arunima Sarkar Basu and Mohammad Aminur Rahman Shah and Katriina Soini and Maria Stefanopoulou and Elena Toth and Liisa Ukonmaanaho and Sasa Vranic and Thomas Zieher},
  title = {Towards an operationalisation of nature-based solutions for natural hazards},
  journal = {Science of The Total Environment},
  year = {2020},
  volume = {731},
  pages = {138855},
  url = {http://www.sciencedirect.com/science/article/pii/S004896972032372X},
  doi = {10.1016/j.scitotenv.2020.138855}
}
Branke J, Zieher T, Pfeiffer J, Bremer M and Rutzinger M (2020), "Extending the integrated monitoring of deep-seated landslide activity into the past – preliminary results of the project EMOD-SLAP", In Proceedings of the Disaster Research Days 2020. online series, October, 2020.
BibTeX:
@inproceedings{Branke2020,
  author = {Branke, Johannes and Zieher, Thomas and Pfeiffer, Jan and Bremer, Magnus and Rutzinger, Martin},
  editor = {Disaster Competence Center Austria (DCNA)},
  title = {Extending the integrated monitoring of deep-seated landslide activity into the past – preliminary results of the project EMOD-SLAP},
  booktitle = {Proceedings of the Disaster Research Days 2020},
  year = {2020}
}

2019

Zieher T, Pfeiffer J, Branke J, Bremer M, Rutzinger M and Wichmann V (2019), "Monitoring of the Reissenschuh landslide (Tyrol, Austria) using remote sensing techniques since 2016 - results and lessons learned", In International Mountain Conference (IMC). Innsbruck, Austria, 09 September, 2019.
BibTeX:
@inproceedings{Zieher2019b,
  author = {Zieher, T. and Pfeiffer, J. and Branke, J. and Bremer, M. and Rutzinger, M. and Wichmann, V.},
  title = {Monitoring of the Reissenschuh landslide (Tyrol, Austria) using remote sensing techniques since 2016 - results and lessons learned},
  booktitle = {International Mountain Conference (IMC)},
  year = {2019}
}
Zieher T, Bremer M, Rutzinger M, Pfeiffer J, Fritzmann P and Wichmann V (2019), "ASSESSMENT OF LANDSLIDE-INDUCED DISPLACEMENT AND DEFORMATION OF ABOVE-GROUND OBJECTS USING UAV-BORNE AND AIRBORNE LASER SCANNING DATA", ISPRS Annals of Photogrammetry, Remote Sensing and Spatial Information Sciences. Vol. IV-2/W5, pp. 461-467.
BibTeX:
@article{Zieher2019,
  author = {Zieher, T. and Bremer, M. and Rutzinger, M. and Pfeiffer, J. and Fritzmann, P. and Wichmann, V.},
  title = {ASSESSMENT OF LANDSLIDE-INDUCED DISPLACEMENT AND DEFORMATION OF ABOVE-GROUND OBJECTS USING UAV-BORNE AND AIRBORNE LASER SCANNING DATA},
  journal = {ISPRS Annals of Photogrammetry, Remote Sensing and Spatial Information Sciences},
  year = {2019},
  volume = {IV-2/W5},
  pages = {461--467},
  url = {https://www.isprs-ann-photogramm-remote-sens-spatial-inf-sci.net/IV-2-W5/461/2019/},
  doi = {10.5194/isprs-annals-IV-2-W5-461-2019}
}
Pfeiffer J, Zieher T, Rutzinger M, Bremer M and Wichmann V (2019), "COMPARISON AND TIME SERIES ANALYSIS OF LANDSLIDE DISPLACEMENT MAPPED BY AIRBORNE, TERRESTRIAL AND UNMANNED AERIAL VEHICLE BASED PLATFORMS", ISPRS Annals of Photogrammetry, Remote Sensing and Spatial Information Sciences. Vol. IV-2/W5, pp. 421-428.
BibTeX:
@article{Pfeiffer2019,
  author = {Pfeiffer, J. and Zieher, T. and Rutzinger, M. and Bremer, M. and Wichmann, V.},
  title = {COMPARISON AND TIME SERIES ANALYSIS OF LANDSLIDE DISPLACEMENT MAPPED BY AIRBORNE, TERRESTRIAL AND UNMANNED AERIAL VEHICLE BASED PLATFORMS},
  journal = {ISPRS Annals of Photogrammetry, Remote Sensing and Spatial Information Sciences},
  year = {2019},
  volume = {IV-2/W5},
  pages = {421--428},
  url = {https://www.isprs-ann-photogramm-remote-sens-spatial-inf-sci.net/IV-2-W5/421/2019/},
  doi = {10.5194/isprs-annals-IV-2-W5-421-2019}
}
Bremer M, Wichmann V, Rutzinger M, Zieher T and Pfeiffer J (2019), "SIMULATING UNMANNED-AERIAL-VEHICLE BASED LASER SCANNING DATA FOR EFFICIENT MISSION PLANNING IN COMPLEX TERRAIN", In ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences. Enschede, The Netherlands, 11 June, 2019. Vol. XLII-2/W13, pp. 943-950.
BibTeX:
@inproceedings{Bremer2019a,
  author = {Bremer, M. and Wichmann, V. and Rutzinger, M. and Zieher, T. and Pfeiffer, J.},
  title = {SIMULATING UNMANNED-AERIAL-VEHICLE BASED LASER SCANNING DATA FOR EFFICIENT MISSION PLANNING IN COMPLEX TERRAIN},
  booktitle = {ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences},
  year = {2019},
  volume = {XLII-2/W13},
  pages = {943--950},
  url = {https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLII-2-W13/943/2019/},
  doi = {10.5194/isprs-archives-XLII-2-W13-943-2019}
}
Bremer M, Zieher T, Pfeiffer J, Petrini-Monteferri F and Wichmann V (2019), "Monitoring der Großhangbewegung Reissenschuh (Schmirntal, Tirol) mit TLS und UAV-basiertem Laserscanning", In 20. Internationale Geodätische Woche Obergurgl 2019. Herbert Wichmann Verlag, VDE VERLAG GMBH.
BibTeX:
@incollection{Bremer2019,
  author = {Bremer, Magnus and Zieher, Thomas and Pfeiffer, Jan and Petrini-Monteferri, Frederic and Wichmann, Volker},
  editor = {Hanke, K. and Weinold, T.},
  title = {Monitoring der Großhangbewegung Reissenschuh (Schmirntal, Tirol) mit TLS und UAV-basiertem Laserscanning},
  booktitle = {20. Internationale Geodätische Woche Obergurgl 2019},
  publisher = {Herbert Wichmann Verlag, VDE VERLAG GMBH},
  year = {2019}
}

2018

Zieher T, Pfeiffer J and Rutzinger M (2018), "Quantification of 3D landslide displacement derived from multi-temporal long-range terrestrial laser scanning", In Geophysical Research Abstracts, EGU General Assembly. Vol. 20(EGU2018-13760)
BibTeX:
@inproceedings{Zieher2018,
  author = {Zieher, T. and Pfeiffer, J. and Rutzinger, M.},
  title = {Quantification of 3D landslide displacement derived from multi-temporal long-range terrestrial laser scanning},
  booktitle = {Geophysical Research Abstracts, EGU General Assembly},
  year = {2018},
  volume = {20},
  number = {EGU2018-13760},
  url = {https://meetingorganizer.copernicus.org/EGU2018/EGU2018-13760.pdf}
}
Pfeiffer J, Zieher T, Bremer M, Wichmann V and Rutzinger M (2018), "Derivation of Three-Dimensional Displacement Vectors from Multi-Temporal Long-Range Terrestrial Laser Scanning at the Reissenschuh Landslide (Tyrol, Austria)", Remote Sensing. Vol. 10(11), pp. 1688.
Abstract: Deep-seated gravitational slope deformations (DSGSDs) endanger settlements and infrastructure in mountain areas all over the world. To prevent disastrous events, their activity needs to be continuously monitored. In this paper, the movement of the Reissenschuh DSGSD in the Schmirn valley (Tyrol, Austria) is quantified based on point clouds acquired with a Riegl VZ®-6000 long-range laser scanner in 2016 and 2017. Geomorphological features (e.g., block edges, terrain ridges, scarps) travelling on top of the landslide are extracted from the acquired point clouds using morphometric attributes based on locally computed eigenvectors and -values. The corresponding representations of the extracted features in the multi-temporal data are exploited to derive 3D displacement vectors based on a workflow exploiting the iterative closest point (ICP) algorithm. The subsequent analysis reveals spatial patterns of landslide movement with mean displacements in the order of 0.62 ma − 1 , corresponding well with measurements at characteristic points using a differential global navigation satellite system (DGNSS). The results are also compared to those derived from a modified version of the well-known image correlation (IMCORR) method using shaded reliefs of the derived digital terrain models. The applied extended ICP algorithm outperforms the raster-based method particularly in areas with predominantly vertical movement.
BibTeX:
@article{Pfeiffer2018,
  author = {Pfeiffer, Jan and Zieher, Thomas and Bremer, Magnus and Wichmann, Volker and Rutzinger, Martin},
  title = {Derivation of Three-Dimensional Displacement Vectors from Multi-Temporal Long-Range Terrestrial Laser Scanning at the Reissenschuh Landslide (Tyrol, Austria)},
  journal = {Remote Sensing},
  year = {2018},
  volume = {10},
  number = {11},
  pages = {1688},
  url = {https://doi.org/10.3390/rs10111688},
  doi = {10.3390/rs10111688}
}

2017

Rutzinger M, Zieher T, Pfeiffer J, Schlögel R, Darvishi M, Toschi I and Remondino F (2017), "Evaluating synergy effects of combined close-range and remote sensing techniques for the monitoring of a deep-seated landslide (Schmirn, Austria)", In Geophysical Research Abstracts, EGU General Assembly. Vienna, Austria, 23 - 28 April, 2017. Vol. 19(EGU2017-6393-3)
BibTeX:
@inproceedings{Rutzinger2017,
  author = {Rutzinger, Martin and Zieher, Thomas and Pfeiffer, Jan and Schlögel, Romy and Darvishi, Mehdi and Toschi, Isabella and Remondino, Fabio},
  title = {Evaluating synergy effects of combined close-range and remote sensing techniques for the monitoring of a deep-seated landslide (Schmirn, Austria)},
  booktitle = {Geophysical Research Abstracts, EGU General Assembly},
  year = {2017},
  volume = {19},
  number = {EGU2017-6393-3},
  url = {http://meetingorganizer.copernicus.org/EGU2017/EGU2017-6393-3.pdf}
}