References¶
Altamimi, Z., Sillard, P., and Boucher, C. ITRF2000: a new release of the International Terrestrial Reference Frame for earth science applications. Journal of Geophysical Research: Solid Earth, 2002. doi:10.1029/2001JB000561.
Bessel, F. W. The calculation of longitude and latitude from geodesic measurements. Astronomische Nachrichten, 4(86):241–254, 1825. arXiv:0908.1824.
Calabretta, M. R. and Greisen, E. W. Representations of celestial coordinates in FITS. Astronomy & Astrophysics, 395(3):1077–1122, 2002. doi:10.1051/0004-6361:20021327.
Chan, F. K. and O'Neill, E. M. Feasibility study of a quadrilateralized spherical cube earth data base. Tech. Rep. EPRF 2-75 (CSC), Computer Sciences Corporation, System Sciences Division, Silver Spring, Md, 1975. URL: https://archive.org/details/ADA010232.
Danielsen, J. The area under the geodesic. Survey Review, 30(232):61–66, 1989. doi:10.1179/sre.1989.30.232.61.
Deakin, R. E. The standard and abridged Molodensky coordinate transformation formulae. Technical Report, Department of Mathematical and Geospatial Sciences, RMIT University, Melborne, Australia, 2004. URL: http://www.mygeodesy.id.au/documents/Molodensky%20V2.pdf.
Eber, L. E. and Hewitt, R. P. Conversion algorithms for the CalCOFI station grid. California Cooperative Oceanic Fisheries Investigations Reports, 20:135–137, 1979. URL: http://www.calcofi.org/publications/calcofireports/v20/Vol_20_Eber___Hewitt.pdf.
Engsager, K. E. and Poder, K. A highly accurate world wide algorithm for the transverse Mercator mapping (almost). In Proc. XXIII Intl. Cartographic Conf. (ICC2007), Moscow, 2.1.2. August 2007.
Evenden, G. I. Cartographic Projection Procedures for the UNIX Environment — A User's Manual. 1995. URL: https://pubs.usgs.gov/of/1990/of90-284/ofr90-284.pdf.
Evenden, G. I. libproj4: A Comprehensive Library of Cartographic Projection Functions (Preliminary Draft). 2005. URL: https://github.com/OSGeo/PROJ/blob/master/docs/old/libproj.pdf.
Evers, K. and Knudsen, T. Transformation pipelines for PROJ.4. In FIG Working Week 2017 Proceedings. Helsinki, Finland, 2017. URL: http://www.fig.net/resources/proceedings/fig_proceedings/fig2017/papers/iss6b/ISS6B_evers_knudsen_9156.pdf.
Goode, J. P. Studies in projections: adapting the homolographic projection to the portrayal of the earth's entire surface. Bul. Geog. SOC.Phila., XWIJ(3):103–113, 1919.
Goode, J. P. The homolosine projection: a new device for portraying the earth's surface entire. Annals of the Association of American Geographers, 3(15):119–125, 1925. doi:10.1080/00045602509356949.
Helmert, F. R. Mathematical and Physical Theories of Higher Geodesy. Volume 1. Teubner, Leipzig, 1880. doi:10.5281/zenodo.32050.
Hensley, S., Chapin, E., Freedman, A., and Michel, T. Improved processing of AIRSAR data based on the GeoSAR processor. In AIRSAR Earth Science and Application Workshop. Pasadena, California, 2002. Jet Propulsion Laboratory. URL: https://airsar.jpl.nasa.gov/documents/workshop2002/papers/T3.pdf.
Häkli, P., Lidberg, M., Jivall, L., Nørbech, T., Tangen, O., Weber, M., Pihlak, P., Aleksejenko, I., and Paršeliunas, E. The NKG2008 GPS campaign – final transformation results and a new common Nordic reference frame. Journal of Geodetic Science, 6(1):1–33, 2016. doi:10.1515/jogs-2016-0001.
IGN. Grille de parametres de transformation de coordonnees - GR3DF97A - notice d'utilisation. Technical Report, Service de Geodesie et Nivellement, Institut Geographique National, 1997. URL: https://geodesie.ign.fr/contenu/fichiers/documentation/algorithmes/notice/NTG_88.pdf.
IOGP. Geomatics guidance note 7, part 2: coordinate conversions & transformations including formulas. IOGP Publication 373-7-2, International Association For Oil And Gas Producers, 2018. URL: https://www.iogp.org/bookstore/product/coordinate-conversions-and-transformation-including-formulas/.
IOGP. Geomatics guidance note 7, part 2: coordinate conversions & transformations including formulas. IOGP Publication 373-7-2, International Association For Oil And Gas Producers, 2019. URL: https://www.iogp.org/wp-content/uploads/2019/09/373-07-02.pdf.
ISO. Geographic information – Referencing by coordinates. Standard, International Organization for Standardization, Geneva, CH, January 2019. URL: http://docs.opengeospatial.org/as/18-005r5/18-005r5.html.
Jenny, B., Šavrič, B., and Patterson, T. A compromise aspect-adaptive cylindrical projection for world maps. International Journal of Geographical Information Science, 29(6):935–952, 2015. URL: http://www.cartography.oregonstate.edu/pdf/2015_Jenny_etal_ACompromiseAspect-adaptiveCylindricalProjectionForWorldMaps.pdf, doi:10.1080/13658816.2014.997734.
Jimenez Shaw, J., Hernando, J., and Strecha, C. Site calibration with proj and wkt2. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XLVIII-4/W7-2023:75–81, 2023. URL: https://isprs-archives.copernicus.org/articles/XLVIII-4-W7-2023/75/2023/, doi:10.5194/isprs-archives-XLVIII-4-W7-2023-75-2023.
Karney, C. F. F. Geodesics on an ellipsoid of revolution. ArXiv e-prints, 2011. arXiv:1102.1215.
Karney, C. F. F. Transverse Mercator with an accuracy of a few nanometers. J. Geod., 85(8):475–485, August 2011. arXiv:1002.1417, doi:10.1007/s00190-011-0445-3.
Karney, C. F. F. Algorithms for geodesics. Journal of Geodesy, 87(1):43–55, 2013. doi:10.1007/s00190-012-0578-z.
Komsta, Ł. ATPOL geobotanical grid revisited – a proposal of coordinate conversion algorithms. Annales UMCS Sectio E Agricultura, 71(1):31–37, 2016.
Krüger, J. H. L. Konforme Abbildung des Erdellipsoids in der Ebene. New Series 52, Royal Prussian Geodetic Institute, Potsdam, 1912. doi:10.2312/GFZ.b103-krueger28.
Lambers, M. and Kolb, A. Ellipsoidal cube maps for accurate rendering of planetary-scale terrain data. In Bregler, C., Sander, P., and Wimmer, M., editors, Pacific Graphics Short Papers. The Eurographics Association, 2012. doi:10.2312/PE/PG/PG2012short/005-010.
O'Neill, E. M. and Laubscher, R. E. Extended studies of a quadrilateralized spherical cube earth data base. Tech. Rep. EPRF 3-76 (CSC), Computer Sciences Corporation, System Sciences Division, Silver Spring, Md, 1976. URL: https://archive.org/details/DTIC_ADA026294.
Patterson, T., Šavrič, B., and Jenny, B. Introducing the Patterson cylindrical projection. Cartographic Perspectives, 2014. doi:10.14714/CP78.1270.
Poder, K. and Engsager, K. Some conformal mappings and transformations for geodesy and topographic cartography. National Survey and Cadastre Publications, National Survey and Cadastre, Copenhagen, Denmark, 1998.
Rittri, M. New omerc approximations of Denmark System 34. e-mail, 2012. URL: https://lists.osgeo.org/pipermail/proj/2012-June/005926.html.
Ruffhead, A. C. Introduction to multiple regression equations in datum transformations and their reversibility. Survey Review, 50(358):82–90, 2016. doi:10.1080/00396265.2016.1244143.
Snyder, J. P. Map projections — A working manual. Professional Paper 1395, U.S. Geological Survey, 1987. doi:10.3133/pp1395.
Snyder, J. P. New equal-area map projections for noncircular regions. The American Cartographer, 15(4):341–356, 1988. doi:10.1559/152304088783886784.
Snyder, J. P. An equal-area map projection for polyhedral globes. Cartographica, 29(1):10–21, 1992. doi:10.3138/27H7-8K88-4882-1752.
Snyder, J. P. Flattening the Earth. University of Chicago Press, 1993.
Steers, J. A. An introduction to the study of map projections. University of London Press, 15th edition, 1970.
Tobler, W. A new companion for Mercator. Cartography and Geographic Information Science, 45(3):284–285, 2018. doi:10.1080/15230406.2017.1308837.
Verey, M. Theoretical analysis and practical consequences of adopting a model ATPOL grid as a conical projection defining the conversion of plane coordinates to the WGS 84 ellipsoid. Fragmenta Floristica et Geobotanica Polonica, 24(2):469–488, 2017. URL: http://bomax.botany.pl/pubs-new/#article-4279.
Vincenty, T. Direct and inverse solutions of geodesics on the ellipsoid with application of nested equations. Survey Review, 23(176):88–93, 1975. doi:10.1179/sre.1975.23.176.88.
Weber, E. D. and Moore, T. J. Corrected conversion algorithms for the CalCOFI station grid and their implementation in several computer languages. California Cooperative Oceanic Fisheries Investigations Reports, 54:1–10, 2013. URL: http://calcofi.org/publications/calcofireports/v54/Vol_54_Weber.pdf.
Zajaç, A. Atlas of distribution of vascular plants in Poland (ATPOL). Taxon, 27(5/6):481–484, 1978. doi:10.2307/1219899.
Šavrič, B., Patterson, T., and Jenny, B. The Natural Earth II world map projection. International Journal of Cartography, 1(2):123–133, 2015. URL: https://www.researchgate.net/publication/290447301_The_Natural_Earth_II_world_map_projection, doi:10.1080/23729333.2015.1093312.
Šavrič, B., Patterson, T., and Jenny, B. The Equal Earth map projection. International Journal of Geographical Information Science, 33(3):454–465, 2018. URL: https://www.researchgate.net/publication/326879978_The_Equal_Earth_map_projection, doi:10.1080/13658816.2018.1504949.