PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Technology of spatial data geometrical simplification in maritime mobile information system for coastal waters

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper undertakes the subject of spatial data pre-processing for marine mobile information systems. Short review of maritime information systems is given and the focus is laid on mobile systems. The need of spatial data generalization is underlined and the concept of technology for such generalization in mobile system is presented. The research part of the paper presents the results of analyzes on selected parameters of simplification in the process of creating mobile navigation system for inland waters. In the study authors focused on selected layers of system. Models of simplification for layers with line features and with polygons were tested. The parameters of tested models were modified for the purposes of study. The article contains tabular results with statistics and spatial visualization of selected layers for individual scales.
Rocznik
Tom
Strony
3--12
Opis fizyczny
Bibliogr. 26 poz., rys., tab
Twórcy
  • Maritime University of Szczecin, Poland, Marine Technology Ltd.
  • Maritime University of Szczecin, Poland, Marine Technology Ltd.
Bibliografia
  • 1. Chrobak T., Keller S., Kozioł K., Szostak M., Żukowska M., Basics of digital cartographic generalization, Uczelniane Wydawnictwa Naukowo-Dydaktyczne, Kraków, 2007 (in polish)
  • 2. IHO, S-52 Standard, ed. 6.1, 2014
  • 3. IALA, Operational and Technical Performance of VTS systems V-128, Ed. 4, 2015
  • 4. Hejmanowska B., Kamiński W., Przyborski M., Pyrchla J., (2015), Modern remote sensing and the challenges facing education systems 2in terms of its teaching, 7th International Confrence on Education and New Learning Technologies EDULEARN 15 Barcelona, Spain, Book Series: EDULEARN Proceedings ISSN: 2340-1117, ISBN: 978-84-606-8243-1, pp. 6549-6558
  • 5. Gotlib D., The methodology of cartographical presentations in mobile localization and navigation ssytems, Prace Naukowe: Geodezja z, 48, Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa, 2011 (in polish)
  • 6. Meng l., Zipf A., Reichenbacher T. (ed), Map-based mobile services, Springer-Verlag, Berlin Heidenberg, 2005.
  • 7. Świerczyński S., Czaplewski K. (2015), M-Estimation as D 7RRO 6XSSRUWLQJ D 9HVVHO 7UDI¿F &RQWUROOHU LQ WKH 976 System, Polish Maritime Research. Volume 22, Issue 3, Pages 3–13
  • 8. Stateczny, A. and Bodus-Olkowska, I. (2015). Sensor Data Fusion Techniques for Environment Modelling. In Proceedings of the 16th International Radar Symposium (IRS), Dresden, Germany, H. Rohling (Ed.), International Radar Symposium Proceedings, pp. 1123-1128 .
  • 9. Szulwic J., Burdziakowski P., Janowski A., Przyborski M., Tysiąc A., Wojtowicz A., Kholodkov A., Matysik K., Matysik M. (2015), Maritime Laser Scanning as the Source for Spatial Data, Polish Maritime Research Volume 22, Issue 4, pp. 9-14
  • 10. Łubczonek J., Stateczny A., Spatial planning of landbased marine radar sensors by using 3D carthographical model of the port and urbanized areas, Proceedings of CoastGIS 2011, Oostend 2011
  • 11. Stateczny, A., Lubczonek, J. and Kantak, T. (2015). Radar Sensors Planning for the Purpose of Extension of River Information Services in Poland. in Proceedings of the 16th International Radar Symposium (IRS), Dresden, Germany, H. Rohling (Ed.), International Radar Symposium Proceedings, pp. 858-863
  • 12. Stateczny, A.: Full Implementation of the River Information Services of Border and Lower Section of the Oder in Poland. Proceedings of Baltic Geodesy Congress, Gdansk, Poland (2016), pp. 140-146, IEEE, DOI: 10.1109/BGC. Geomatics.2016.33
  • 13. IMO: Resolution MSC.252(83) - Adoption of the revised performance standards for integrated navigation systems (INS), 2007
  • 14. Janowski, A., Nowak, A., Przyborski, M. and Szulwic, J. (2014). Mobile Indicators in GIS and GPS Positioning Accuracy in Cities. In Proceedings of the Joint Rough Set Symposium, Granada and Madrid, Spain, Kryszkiewicz et al. (Eds), Lecture Notes in Artificial Intelligence, 8537, pp. 309–318.
  • 15. Wawrzyniak, N. and Hyla, T. (2014). Managing Depth Information Uncertainty in Inland Mobile Navigation Systems. In Proceedings of the Joint Rough Set Symposium, Granada and Madrid, Spain, Kryszkiewicz et al. (Eds), Lecture Notes in Artificial Intelligence, 8537, pp. 343–350.
  • 16. Kazimierski, W. and Stateczny, A. (2015). Radar and $XWRPDWLF ,GHQWL¿FDWLRQ 6\VWHP 7UDFN )XVLRQ LQ DQ Electronic Chart Display and Information System. Journal of Navigation, vol. 68, pp 1141-1154.
  • 17. Borkowski, P. (2014). Data fusion in a navigational decision support system on a sea-going vessel. Polish Maritime Research, Vol. 19, 78-85.
  • 18. Szłapczyński R., Śmierzchalski R (2009)., Supporting QDYLJDWRU¶V GHFLVLRQV E\ YLVXDOL]LQJ VKLS FROOLVLRQ ULVN, Polish Maritime Research. Volume 16, Issue 1, Pages 83–88
  • 19. Borkowski, P. (2014). Ship course stabilization by IHHGEDFN OLQHDUL]DWLRQ ZLWK DGDSWLYH REMHFW PRGHO. Polish Maritime Research, 21, 14-19.
  • 20. Zwierzewicz Z. (2013), 2Q WKH VKLS FRXUVH NHHSLQJ FRQWURO V\VWHP GHVLJQ E\ XVLQJ UREXVW IHHGEDFN linearization, Polish Maritime Research. Volume 20, Issue 1, Pages 70–76
  • 21. Wlodarczyk-Sielicka M., Stateczny A.: Comparison of selected reduction methods of bathymetric data obtained by multibeam echosounder. Proceedings of Baltic Geodesy Congress, Gdansk, Poland (2016), pp.73-77, IEEE, DOI: 10.1109/BGC.Geomatics.2016.22
  • 22. Stateczny, A. and Bodus-Olkowska, I. (2014). Hierarchical Hydrographic Data Fusion for Precise Port Electronic Navigational Chart Production. In Telematics in the Transport Environment, Proceedings of the 14th International Conference on TST, Katowice-Ustroń, Poland, J. Mikulski (Ed.), Communications in Computer and Information Science, 471, 359–368.
  • 23. Wlodarczyk-Sielicka, M., Stateczny, A.: Clustering Bathymetric Data for Electronic Navigational Charts. The Journal of Navigation vol. 69, issue 5, pp 1143-1153 (2016)
  • 24. IMO NCSR 1/28, Draft e-navigation strategy implementation plan, 2014, http://www.imo.org/en/ OurWork/Safety/Navigation/Documents/enavigation/ SIP.pdf
  • 25. W. Kazimierski, I. Bodus-Olkowska, M. WłodarczykSielicka, G. Zaniewicz, The concept of cartographic presentation model in mobile navigation system for inland waters, Annals of Geomatics 2015, Vol. XIII, 4(70), s, 335-348,
  • 26. V. Droppova, The tools of automated generalization and building generalization in an ArcGIS environment, Slovak Journal of Civil Engineering, Volume 19, Issue 1, Pages 1–7, 2011
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8c931e00-aced-41a6-94df-98afc5f51634
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.