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Marine Geodesy Volume 41, 2018 - Issue 1
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Original Articles

Automatic Sounding Generalization in Nautical Chart Considering Bathymetry Complexity Variations

Wenhao YuFaculty of Information Engineering, China University of Geosciences, Wuhan, ChinaCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0003-1521-2674View further author information
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Pages 68-85 | Received 21 Mar 2017, Accepted 12 Oct 2017, Published online: 14 Dec 2017

References

  • Ahuja, N. and M. Tuceryan. 1989. Extraction of early perceptual structure in dot patterns: Integrating region, boundary, and component gestalt. Computer Vision Graphics and Image Processing 48(3):304–356.
  • Ahuja, N. 1982. Dot pattern processing using Voronoi neighborhoods. IEEE Transactions on Pattern Analysis and Machine Intelligence 4(3):336–343.
  • de Berg, M., P. Bose, O. Cheong, and P. Morin. 2004. On simplifying dot maps. Computational Geometry 27(1):43–62.
  • Guilbert, E. 2013. Multi-level representation of terrain features on a contour map. Geoinformatica 17:301–324.
  • Horn, B. K. P. 1981. Hill shading and the reflectance map. Proceedings of the IEEE 69(1):14–47.
  • IHO. 2014. Special Regulations for Electronic Navigational Chart Product Specifications of the IHO. Monaco: International Hydrographic Bureau.
  • Jones, C., G. Bundy, and J. Ware. 1995. Map generalization with a triangulated data structure. Cartography and Geographic Information Science 22(4):317–331.
  • Lovrinčević, D. 2016. Quality assessment of an automatic sounding selection process for navigational charts. The Cartographic Journal 54(2):139–146. DOI:10.1080/00087041.2016.1195031
  • Oraas, S. R. 1975. Automated sounding selection. The International Hydrographic Review 52(2):103–115.
  • Palomar-Vázquez, J., and J. Pardo-Pascual. 2008. Automated spot heights generalisation in trail maps. International Journal of Geographical Information Science 22(1):91–110.
  • Riley, S. J., S. D. Degloria, and S. D. Elliot. 1999. A terrain ruggedness index that quantifies topographic heterogeneity. Intermountain Journal of Sciences 5(1–4):23–27.
  • Sui, H., X. Zhu, and A. Zhang. 2005. A system for fast cartographic sounding selection. Marine Geodesy 28(2):159–165.
  • Sharpnack, D. A. and G. Akin. 1969. An algorithm for computing slope and aspect from elevations. Photogrammetric Survey 35:247–248.
  • Smith, S. M., L. Alexander, and A. A. Armstrong. 2002. The navigation surface: A new database approach to creating multiple products from high-density surveys. International Hydrographic Review 3(2):12–26.
  • Topfer, F. and W. Pillewizer. 1966. The principles of selection. The Cartographic Journal 3(1):10–16.
  • Wang, J. and Z. Tian. 1999. The cartographic generalization of soundings on chart by artificial neural network techniques. Acta Geodaetica et Cartographica Sinica 28(4):335–339.
  • Yan, H. and R. Weibel. 2008. An algorithm for point cluster generalization based on the Voronoi diagram. Computers and Geosciences 34(8):939–954.
  • Yan, H. and J. Li. 2013. An approach to simplifying point features on maps using the multiplicative weighted Voronoi diagram. Journal of Spatial Science 58(2):291–304.
  • Zahn, C. T. 1971. Graph-theoretical methods for detecting and describing gestalt clusters. IEEE Transactions on Computers 20(1):68–86.
  • Zhai, J. and Y. Lu. 2005. Recognition and measurement of marine topography for sounding generalization in digital nautical chart. Marine Geodesy 28(2):167–174.
  • Zhou, Q. and X. Liu. 2004a. Error analysis on grid-based slope and aspect algorithms. Photogrammetric Engineering and Remote Sensing 70(8):957–962.
  • Zhou, Q. and X. Liu. 2004b. Analysis of errors of derived slope and aspect related to DEM data properties. Computers and Geosciences 30:369–378.
  • Zhou, Q., X. Liu, and Y. Sun. 2006. Terrain complexity and uncertainties in grid-based digital terrain analysis. International Journal of Geographical Information Science 20(10):1137–1147.
  • Zhang, X., T. Ai, J. Stoter, M. J. Kraak, and M. Molenaar. 2013. Building pattern recognition in topographic data: Examples on collinear and curvilinear alignments. Geoinformatica 17(1):1–33.
  • Zoraster, S. 1990. The automatic selection of prime soundings for nautical chart compilation. Lighthouse 41(1):9–14.
  • Zoraster, S. and S. Bayer. 1992. Automated cartographic sounding selection. International Hydrographic Review 59(1):57–61.

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