Mobile Laser Scanning Calibration on A Marine Platform

1. Burdziakowski P., et al. (2015) Maritime laser scanning as the source for spatial data. Polish Maritime Research. Vol. 22, Iss. 4(88) (2015), pp.9-14, DOI: 10.1515/pomr-2015-006410.1515/pomr-2015-0064Open DOISearch in Google Scholar

2. Kholodkov A., et al. (2014) Morski skaning laserowy infrastruktury portowej na przykładzie portu we Władysławowie (in Polish). Logistyka, Vol. 6, pp. 14317-14328Search in Google Scholar

3. Mobile Laser Scanning on Board Hydrographic Survey Vessels - Applications and Accuracy Investigations - Volker Böder, Thomas P. Kersten, Thomas Thies, Arne Sauer, GermanySearch in Google Scholar

4. Chen C., et al. (2013) High accuracy calibration for vehicle-based laser scanning and urban panoramic imaging and surveying system. MIPPR 2013: Multispectral Image Acquisition, Processing, and Analysis, SPIE 8917, 89170Y, DOI: 10.1117/12.203146610.1117/12.2031466Search in Google Scholar

5. Dudzinska-Nowak J., Wezyk P. (2014) Volumetric changes of a soft cliff coast 2008-2012 based on DTM from airborne laser scanning (Wolin Island, southern Baltic Sea). Journal of Coastal Research, Vol. 70, pp. 59-64, DOI: 10.2112/SI70-011.110.2112/SI70-011.1Open DOISearch in Google Scholar

6. Ossowski R. (2017) Environmental aspects of coastal earth structures made of soil-ash composites. Polish Maritime Research, Vol. 24,Iss. S1(93), pp.166-173, DOI: 10.1515/pomr-2017-003510.1515/pomr-2017-0035Open DOISearch in Google Scholar

7. Ossowski R., Gwizdała K. (2017) Mechanical Properties of a Dike Formed from a Soil-ash Composite. Procedia Engineering, Vol. 172, pp. 816-822, DOI: 10.1016/j.proeng.2017.02.12910.1016/j.proeng.2017.02.129Open DOISearch in Google Scholar

8. Szulwic J., et al. (2016) Coastal cliffs monitoring and prediction of displacements using terrestial laser scanning. 2016 Baltic Geodetic Congress (BGC Geomatics), 2016, IEEE Computer Society, DOI: DOI: 10.1109/BGC.Geomatics.2016.2010.1109/BGC.Geomatics.2016.20Search in Google Scholar

9. Furmańczyk K. (2013) Coastal Erosion and Protection in Europe, pp. 81-95, ISBN 978-1-84971-339-910.4324/9780203128558-5Search in Google Scholar

10. Abellan A., et al. (2009) Detection of millimetric deformation using a terrestrial laser scanner: experiment and application to a rockfall event. Nat. Hazards Earth Syst. Sci., 9, 365–372, 200910.5194/nhess-9-365-2009Search in Google Scholar

11. Bobkowska K., et al. (2017) Implementation of spatial information for monitoring and analysis of the area around the port using laser scanning techniques. Polish Maritime Research, Vol. 24, Iss. S1(93), pp.10-15, DOI: 10.1515/pomr-2017-001510.1515/pomr-2017-0015Open DOISearch in Google Scholar

12. Wolski T. (2017) Czasowa i przestrzenna charakterystyka ekstremalnych poziomów wód Morza Bałtyckiego (in Polish). Szczecin 2017, ISBN 978-83-7972-091-0Search in Google Scholar

13. Szafranek K., at al. (2014) Configuration of the reference stations as the element of national reference frame reliability. Acta Geodynamica et Geomaterialia, Vol. 11, Iss. 1, pp. 5-15, 201410.13168/AGG.2013.0050Search in Google Scholar

14. Nykiel G., et al. (2017) Atmospheric opacity estimation based on IWV derived from GNSS observations for VLBI applications. GPS Solutions, Vol. 22, Iss. 1, Art. UNSP 910.1007/s10291-017-0675-9Search in Google Scholar

15. Nowak A. (2017) Dynamic GNSS mission planning using DTM for precise navigation of autonomous vehicles. Journal of Navigation, Vol. 70, Iss. 3, pp. 483-504, DOI: 10.1017/S037346331600067910.1017/S0373463316000679Open DOISearch in Google Scholar

16. Renigier-Biłozor M., et al. (2017) Rating engineering of real estate markets as the condition of urban areas assessment. Land Use Policy, Vol. 61, pp. 511-525, DOI: 10.1016/j.landusepol.2016.11.04010.1016/j.landusepol.2016.11.040Open DOISearch in Google Scholar

17. Renigier-Biłozor M., et al. (2014) Rating methodology for real estate markets – Poland case study. International Journal of Strategic Property Management, 18, 198-212, DOI: 10.3846/1648715X.2014.92740110.3846/1648715X.2014.927401Open DOISearch in Google Scholar

18. Apollo M., et al. (2017) Application of BN in risk diagnostics arising from the degree of urban regeneration area degradation. 2017 Baltic Geodetic Congress (BGC Geomatics), Gdansk Univ Technol, Poland, JUN 22-25, 2017, pp. 83-88, DOI: 10.1109/BGC.Geomatics.2017.4710.1109/BGC.Geomatics.2017.47Open DOISearch in Google Scholar

19. Miśkiewicz M. et al. (2017) Technical monitoring system for a new part of Gdansk Deepwater Container Terminal. Polish Maritime Research, Iss. S1 (93), vol. 24, pp. 149-155, DOI: 10.1515/pomr-2017-003310.1515/pomr-2017-0033Open DOISearch in Google Scholar

20. Chróścielewski J., et al. (2017) A novel sandwich footbridge – Practical application of laminated composites in bridge design and in situ measurements of static response. Composites Part B-Engineering. Vol. 126, pp. 153-161. DOI: 10.1016/j.compositesb.2017.06.0010.1016/j.compositesb.2017.06.00Open DOISearch in Google Scholar

21. Mitrosz O., et al. (2017) Preliminary field tests and long-term monitoring as a method of design risk mitigation: a case study of Gdansk Deepwater Container Terminal. Polish Maritime Research No 3(95), vol. 24, pp. 106-114, DOI: 10.1515/pomr-2017-0095.10.1515/pomr-2017-0095Open DOISearch in Google Scholar

22. Bobkowska K., et al. (2017) DMI measurements impact on a position estimation with lack of GNSS signals during Mobile Mapping. Journal of Physics: Conference Series, Vol. 870, DOI: 10.1088/1742-6596/870/1/01201010.1088/1742-6596/870/1/012010Open DOISearch in Google Scholar

23. Paszotta Z., et al. (2017) Internet Photogrammetry for Inspection of Seaports. Polish Maritime Research, 24 (s1), pp. 174-181. DOI: 10.1515/pomr-2017-003610.1515/pomr-2017-0036Open DOISearch in Google Scholar

24. Miśkiewicz M., Pyrzowski L. (2017) Load Tests of the Movable Footbridge Over the Port Canal in Ustka. 2017 Baltic Geodetic Congress (BGC Geomatics), pp. 242-246. DOI: 10.1109/BGC.Geomatics.2017.710.1109/BGC.Geomatics.2017.7Open DOISearch in Google Scholar

25. Miśkiewicz M., Makowska K. (2017) Displacement measurements during load testing of railway arch bridge. 17th International Multidisciplinary Scientific GeoConference SGEM 2017, Vol. 17, Iss. 22, 257-264 pp, DOI: 10.5593/sgem2017/22/S09.032.10.5593/sgem2017/22/S09.032Open DOISearch in Google Scholar

26. Kamiński W., et al. (2015). System of monitoring of the Forest Opera in Sopot structure and roofing, 15th International Multidisciplinary Scientific GeoConference SGEM 2015, Book 2 Vol. 2, pp. 471-482, DOI: 10.5593/SGEM2015/B22/S9.059.10.5593/SGEM2015/B22/S9.059Open DOISearch in Google Scholar

27. Chróścielewski J., et al. (2014). Assessment of tensile forces in Sopot Forest Opera membrane by in situ measurements and iterative numerical strategy for inverse problem, Shell Structures: Theory and Applications. Vol. 3, 2014, CRC Press/Balkema, pp. 499-502, DOI: 10.1201/b15684-12510.1201/b15684-125Open DOISearch in Google Scholar

28. Pyrzowski Ł., et al. (2016) Structural Health Monitoring of Composite Shell Footbridge for Its Design Validation. Proceedings 2016 Baltic Geodetic Congress (Geomatics), IEEE Computer Society, pp. 228-233, DOI: 10.1109/BGC. Geomatics.2016.4810.1109/BGC.Geomatics.2016.48Open DOISearch in Google Scholar

29. Przyborski M., et al. (2015) Photogrammetric development of the threshold water at the dam on the Vistula river in Wloclawek from unmanned aerial vehicles (UAV). In SGEM2015 Conference Proceedings (pp. 18-24), DOI: 10.5593/SGEM2015/B31/S12.06310.5593/SGEM2015/B31/S12.063Open DOISearch in Google Scholar

30. Kedzierski M., Delis P. (2016) Fast orientation of video images of buildings acquired from a UAV without stabilization. Sensors, Vol. 16, Iss. 7, Article Number: 951, DOI: 10.3390/s1607095110.3390/s16070951497000527347954Open DOISearch in Google Scholar

31. Glowienka E., et al. (2017) Use of LIDAR Data in the 3D/4D Analyses of the Krakow Fortress Objects. IOP Conference Series-Materials Science and Engineering, Vol. 245, Article Number: UNSP 042080, WMCAUS, Prague, Czech Republic, DOI: 10.1088/1757-899X/245/4/04208010.1088/1757-899X/245/4/042080Search in Google Scholar

32. Janowski A. (2018) The circle object detection with the use of Msplit estimation. E3S Web Conf. Vol. 26, 2018 Seminary on Geomatics, Civil and Environmental Engineering, Gdańsk, Poland, 2017, DOI: 10.1051/e3sconf/2018260001410.1051/e3sconf/20182600014Open DOISearch in Google Scholar

33. Bobkowska K., et al. (2018) 3D modelling of cylindrical shaped objects from LIDAR data – an assessment based on theoretical modelling and experimental data. Metrology and Measurement Systems, Vol. 25, Iss. 1/2018, DOI: 10.24425/11815610.24425/118156Open DOISearch in Google Scholar

34. Janowski A., et al. (2016) Remote sensing and photogrammetry techniques in diagnostics of concrete structures. Computers and Concrete, Vol. 18, Iss. 3, pp. 405-42010.12989/cac.2016.18.3.405Open DOISearch in Google Scholar

35. Bobkowska K., et al. (2017) Procedura pomiarowa usługi skanowania laserowego 3D z platformy pływającej (in Polish). Gdańsk, FCEE GUT, ISBN 978-83-60261-05-7, pp. 1-98.Search in Google Scholar