Publications
Accurate optical flow in noisy image sequences. ICCV. 587--592
(2001). Dense parameter fields from total least squares. Proceedings of the 24th DAGM Symposium on Pattern Recognition. Springer. LNCS 2449 379--386
(2002). Dense range flow from depth and intensity data. ICPR. 131--134
(2000). Dense structure estimation via regularised optical flow. VMV 2000. Aka GmbH, Berlin. 57--64
(2000). Differential range flow estimation. Proceedings of the 21th DAGM Symposium on Pattern Recognition. 309--316
(1999). Estimating expansion rates from range data sequences. 15th International Conference on Vision Interface. 339 - 346
(2002). Evaluating the range flow motion constraint.. ICPR. 517--
(2002). Fluidisation and deformation of submerged soil due to fluctuating water level. XII Europ. Conference on Soil Mechanics and Geotechnical Engineering. 1109--1115
(1999). A general framework for image sequence processing. Fachtagung Informationstechnik. 125--132
(2001). Local models for dynamic processes in image sequences. Dynamic Perception. Aka GmbH. 59--64
(2002). Material transport and structure changes at soil-water interfaces. Filters and Drainage in Geotechnical and Environmental Engineering. 91--97
(2000). A miniaturized 3-D particle-tracking velocimetry system to measure the pore flow within a gravel layer. Proc. 11th Int. Symp. Applications of Laser Techniques to Fluid Mechanics. 2.3. http://in3.dem.ist.utl.pt/lxlaser2002/papers.asp
(2002). Mixed OLS-TLS for the estimation of dynamic processes with a linear source term. Proceedings of the 24th DAGM Symposium on Pattern Recognition. Springer-Verlag. 2449 463--471
(2002). Optical and range flow to measure 3D plant growth and motion. Image Vision Computing New Zealand. 68--77
(2000). Quantitative regularized range flow. Vision Interface. 203--210
(2000). (2000). Root Growth Analysis in Physiological Coordinates. International Conference on Image Analysis and Processing (ICIAP'01)
(2001). Root Growth Measurements in Object Coordinates. Proceedings of the 23th DAGM Symposium on Pattern Recognition. Springer
(2001). Study of dynamical processes with tensor-based spatiotemporal image processing techniques. ECCV 1998. Springer. 1407 322--336
(1998). Surface expansion from range data sequences. Proceedings of the 23th DAGM Symposium on Pattern Recognition. Springer. 163--169
(2001). Tensor-based image sequence processing techniques for the study of dynamical processes. Proc. Intern. Symp. On Real-time Imaging and Dynamic Analysis. International Society of Photogrammetry and Remote Sensing, ISPRS, Commision V. 704--711
(1998). A total least squares framework for low-level analysis of dynamic scenes and processes. Proceedings of the 21th DAGM Symposium on Pattern Recognition. Springer. 240--249
(1999). 3D-Blattbewegung und Wachstum. Nahbereichsphotogrammetrie in der Praxis, Beispiele und Problemlösungen. Wichmann. 267--270. http://d-nb.info/96618503X
(2002). 3D-Strömungsmessung in Kiesporen. Nahbereichsphotogrammetrie in der Praxis, Beispiele und Problemlösungen. Wichmann. 247--250. http://d-nb.info/96618503X
(2002). Analyzing particle movements at soil interfaces. Handbook of Computer Vision and Applications. Academic Press. 3: Systems and Applications 699-718
(1999). Analyzing particle movements at soil interfaces. Computer Vision and Applications. A Guide for Students and Practitioners. Academic Press. 648--649
(2000). The fusion of image and range flow. Multi-Image Search and Analysis. Springer. 174--192
(2001). Motion. Handbook of Computer Vision and Applications. Academic Press. 2: Signal Processing and Pattern Recognition 309--396
(1999). Motion. Computer Vision and Applications - A Guide for Students and Practitioners. Academic Press. 347--395
(2000). (2003).
Estimation of surface flow and net heat flux from infrared image sequences. Journal of Mathematical Imaging and Vision. 19 159--174
(2003). (2002). (1998).
Analysing Dynamic Processes in Range Data Sequences. IWR, Fakultät für Physik und Astronomie, Univ.\ Heidelberg. http://www.ub.uni-heidelberg.de/archiv/1665
(2001).