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Geo-spatial Information Science Volume 26, 2023 - Issue 2: “Advances in Photogrammetry” In memory of Prof. Dr.-Ing. Dr.h.c.mult. Fritz Ackermann
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Personal Paper

Friedrich Ackermann’s scientific research program

Wolfgang FörstnerDepartment of Photogrammetry, University, Bonn, GermanyCorrespondence[email protected]
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Pages 141-150 | Published online: 18 Aug 2023

References

  • Ackermann, F. 1965. Fehlertheoretische Untersuchungen über die Genauigkeit photogrammetrischer Streifentriangulationen. Reihe C 87. München: Deutsche Geodätische Kommission bei der Bayerischen Akademie der Wissensch.
  • Ackermann, F. 1966. “On the Theoretical Accuracy of Planimetric Block Triangulation.” Photogrammetria 21 (5): 145–170. https://doi.org/10.1016/0031-8663(66)90009-3.
  • Ackermann, F. 1974. “Photogrammetric Densification of Trigonometric Networks – The Project Appenweier.” Bildmessung und Luftbildwesen 6:189–192.
  • Ackermann, F. 1984. “Digital Image Correlation: Performance and Potential Application in Photogrammetry.” Photogrammetric Record 11 (64): 429–439. https://doi.org/10.1111/j.1477-9730.1984.tb00505.x.
  • Ackermann, F., H. Ebner, and H. Klein. 1972. “Combined Block Adjustment of APR Data and Independent Photogrammetric Models.” The Canadian Surveyor 26 (4): 384–396. https://doi.org/10.1139/tcs-1972-0063.
  • Ackermann, F., and M. Hahn. 1991. “Image Pyramids for Digital Photogrammetry.” In Digital Photogrammetric Systems, edited by H. Ebner, D. Fritsch, and C. Heipke, 43–58. Berlin: Wichmann-Verlag.
  • Baarda, W. 1967. Statistical Concepts in Geodesy. Vol. 2/4 of Publication on Geodesy, New Series. Delft, The Netherlands: Netherlands Geodetic Commission. https://doi.org/10.54419/bjdeu2.
  • Baarda, W. 1968. A Testing Procedure for Use in Geodetic Networks. Vol. 2/5 of Publication on Geodesy, New Series. Delft, The Netherlands: Netherlands Geodetic Commission. https://doi.org/10.54419/t8w4sg.
  • Barbard, S. T., and W. B. Thomson. 1980. “Disparity Analysis of Imges.” IEEE Transactions on Pattern Analysis & Machine Intelligence 2 (4): 333–340. https://doi.org/10.1109/TPAMI.1980.4767032.
  • Brown, D. C. 1966. “Decentering Distortion of Lenses.” Photogrammetric Engineering 32 (3): 444–462.
  • Brown, D. C. 1971. “Close-Range Camera Calibration.” Photogrammetric Engineering 37 (8): 855–866.
  • Brown, D. C. 1974. “Bundle Adjustment with Strip- and Block-Invariant Parameters.” Bildmessung und Luftbildwesen 44:128–139.
  • Cover, T. M., and J. A. Thomas. 1991. Elements of Information Theory. Hoboken, New Jersey: John Wiley & Sons. https://doi.org/10.1002/0471200611.
  • Duham, P. 1954. “Physical Theory and Experiment.” In Philosophy of Science: The Central Issues, 1998, edited by M. Curd and J. A. Cover. New York, USA: W. W. Norton and Company.
  • Ebner, H. 1976. “Self Calibrating Block Adjustment.” Zeitschrift für Bildmessung und Luftbildwesen 44:128–139.
  • Ebner, H., K. Krack, and E. Schubert. 1977. “Genauigkeitsmodelle für die Bündelblocktriangulation.” Bildmessung und Luftbildwesen 5:141–148.
  • Förstner, W. 1982. “On the Geometric Precision of Digital Correlation.” In Intl. Archives of Photogrammetry, edited by J. Hakkarainen, E. Kilpelä, and A. Savolainen, 176–189. Vols. XXIV–3, Jun. Helsinki: ISPRS Symposium, Comm. III.
  • Förstner, W. 1986. “A Feature Based Correspondence Algorithm for Image Matching.” In Intl. Archives of Photogrammetry and Remote Sensing, edited by E. Kilpelä, 150–166. Vol. 26, Part 3/3. Rovaniemi, Finland: ISP Symposium, Comm. III.
  • Förstner, W. 1993. “Image Matching.“ In Computer and Robot Vision. Vol. II, Chap. 16, 289–379. Boston, USA: Addison Wesley.
  • Förstner, W., and H. Gönnenwein. 1972. “Photogrammetrische Punktbestimmung aus extrem gro ma stäbigen Bildern - Der Versuch Böhmenkirch.” Allgemeine Vermessungs – Nachrichten 7: 271–291.
  • Förstner, W., and B. P. Wrobel. 2016. Photogrammetric Computer Vision – Statistics, Geometry, Orientation and Reconstruction. Springer International Publishing. https://doi.org/10.1007/978-3-319-11550-4.
  • Haug, G. 1980. Bestimmung und Korrektur systematischer Bildund Modelldeformationen der Aerotriangulation am Beispiel des Testfeldes “Oberschwaben”. Frankfurt/M, Germany: Institut für Angewandte Geodäsie, Publication of Organisation Europeenne d’Etudes Photogrammetriques Experimentales.
  • Helava, U. V. 1978. “Digital Correlation in Photogrammetric Instruments.” Photogrammetria 34 (1): 19–41. https://doi.org/10.1016/0031-8663(78)90020-0.
  • Huber, P. J. 1991. “Between Robustness and Diagnostics.” In Directions in Robust Statistics and Diagnostics, edited by W. Stahel and S. Weisberg, 121–130. New York, Berlin, Heidelberg, London, Paris, Tokyo, Hong Kong, Barcelona: Springer.
  • Ikeuchi, K., edited by. 2014. Computer Vision – A Reference Guide. Springer US. https://doi.org/10.1007/978-0-387-31439-6.
  • Jerie, H. G. 1957. “Block Adjustment by Means of Analogue Computers.” Photogrammetria 14:161–176. https://doi.org/10.1016/S0031–866(3()57)80022–2.
  • Kilpelä, E. 1980. “Compensation of Systematic Errors of Image and Model Coordinates.” In Intl. Archives of Photogrammetry and Remote Sensing, edited by G. Konecny and G. Böttcher, 407–427. Vol. XXIII. Hamburg: Proc. XIVth ISPRS Congress.
  • Krzystek, P. 1991. “Fully Automatic Measurement of Digital Elevation Models with MATCH–T.” In Photogrammetric Week, Schriftenreihe, Institute of Photogrammetry, edited by F. Ackermann and D. Hobbie, 203–214. Vol. 15. Stuttgart, Germany: Stuttgart University.
  • Lakatos, I. 1982. Die Methodologie der wissenschaftlichen Forschungsprogramme. Braunschweig, Germany: Vieweg. https://doi.org/10.1007/978-3-663-08082-4.
  • Lucas, B. D. 1984. “Generalized Image Matching by the Method of Differences.” PhD diss., Pittsburgh: CarnegieMellon University, Computer Science Department.
  • Lucas, B. D., and T. Kanade. 1981. “An Iterative Image Registration Technique with an Application to Stereo Vision.” In International Joint Conference on Artificial Intelligence, B.C., Canada, 674–679.
  • Meissl, P. 1972. “A Theoretical Random Error Propagation Law for Anblock-Networks with Constrained Boundary.” Österreichische Zeitschrift für Vermessungswesen 60:61–65.
  • Paderes, F. C., E. M. Mikhail, and W. Förstner. 1984. “Rectification of Single and Multiple Frames of Satellite Scanner Imagery Using Points and Edges as Control.” In Proc. of the 2nd Annual NASA Symposium on Mathematical Pattern Recognition & Image Analysis, edited by L. F. Guseman, College Station, TX 77843, NASA Johnson Space Center, Texas A & M University, july 92.
  • Popper, K. 1934. Logik der Forschung. 4th ed. Mohr Siebeck, Tübingen. https://doi.org/10.1007/978-3-7091-4177-9.
  • Quine, W. V. O. 1951. “Two Dogmas of Empiricism.” The Philosophical Review 60 (1): 20–43. https://doi.org/10.2307/2181906.
  • Rosebrock, D., and F. M. Wahl. 2012. “Generic Camera Calibration and Modeling Using Spline Surfaces.” 2012 IEEE Intelligent Vehicles Symposium, Alcala de Henares, Spain, 51–56.
  • Schewe, H. 1988. Automatische photogrammetrische Erfassung von Industrieoberflächen. Technical Report. Stuttgart: Inpho GmbH.
  • Schilcher, M. 1980. Empirisch-statistische Untersuchungen zur Genauigkeitsstruktur des photogrammetrischen Luftbildes. Reihe C 262. München: Deutsche Geodätische Kommission bei der Bayerischen Akademie der Wissenschaften.
  • Schmid, H. H. 1958. “Eine allgemeine analytische Lösung für die Aufgabe der Photogrammetrie.” Bildmessung und Luftbildwesen 26/27 (11/12): 103–113, 1959:1–12.
  • Schneider, C.-T. 1990. Objektgestützte Mehrbildzuordnung. Reihe C 375. Munich, Germany: Deutsche Geodätische Kommission bei der Bayerischen Akademie der Wissenschaften.
  • Schops, T., V. Larsson, M. Pollefeys, and T. Sattler. 2020. “Why Having 10,000 Parameters in Your Camera Model is Better Than Twelve.” In 2020 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR), 2532–2541. Los Alamitos, CA, USA: IEEE Computer Society, june
  • Stark, E. 1973. Die Genauigkeitsstruktur im photogrammetrischen Einzelmodell. Dissertationen Reihe C 193. Munich, Germany: Verlag der Bayr. Akademie der Wissenschaften, Deutsche Geodätische Kommission.
  • Svedlow, M., C. D. McGillem, and P. Anuta. 1976. Analytical and Experimental Design and Analysis of an Optimal Processor for Image Registration. Technical Report Inf. Note 090776. West Lafayette: LARS, Purdue Univ.
  • Tang, R., D. Fritsch, and M. Cramer. 2012. “New Rigorous and Flexible Fourier Self-Calibration Models for Airborne Camera Calibration.” ISPRS Journal of Photogrammetry and Remote Sensing 71:76–85. https://doi.org/10.1016/j.isprsjprs.2012.05.004.
  • Triggs, B., P. McLauchlan, R. Hartley, and A. Fitzgibbon. 2000. “Bundle Adjustment — A Modern Synthesis.” In Vision Algorithms: Theory and Practice, edited by B. Triggs, A. Zisserman, and R. Szeliski, 298–372. Vol. 1883 of LNCS, 298372. 298372. Proc. of the Intl. Workshop on Vision Algorithms: Theory and Practice. Springer. https://doi.org/10.1007/3-540-44480-7_21.
  • Vosselman, G. 1986. “An investigation into the precision of a digital camera.” Master’s thesis, Technical University of Delft.
  • Wild, E. 1983. Die Prädiktion mit Gewichtsfunktionen und deren Anwendung zur Beschreibung von Geländeflächen bei topographischen Geländeaufnahmen. Reihe C 277. Munich, Germany: Deutsche Geodätische Kommission.

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