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Spatial data acquisition from motion video
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| dc.contributor.author | Williams, Mark | en_NZ |
| dc.date.copyright | 1996-12 | en_NZ |
| dc.identifier.citation | Williams, M. (1996). Spatial data acquisition from motion video (Information Science Discussion Papers Series No. 96/25i). GeoComputation ’96 Special Issue 96/25. University of Otago. Retrieved from http://hdl.handle.net/10523/828 | en |
| dc.identifier.uri | http://hdl.handle.net/10523/828 | |
| dc.description | Part of the GeoComputation '96 Special Issue 96/25; follow the "related link" to download the entire collection as a single document. | en_NZ |
| dc.description.abstract | Geographic information systems are an important tool for the field of geocomputing. A key component of every system is the data—spatial data has traditionally been labour-intensive to collect, and hence expensive. This paper establishes a new method of acquiring spatial data from motion video. The proposed method is based upon the principles of photogrammetry, but allows position to be calculated with feature tracking rather than point correspondence. By doing so, it avoids many constraints imposed by previous solutions. The new method is demonstrated with linear and rotational motion. | en_NZ |
| dc.format.mimetype | application/pdf | |
| dc.publisher | University of Otago | en_NZ |
| dc.relation.ispartof | GeoComputation '96 Special Issue 96/25 | en_NZ |
| dc.relation.ispartofseries | Information Science Discussion Papers Series | en_NZ |
| dc.relation.uri | http://hdl.handle.net/10523/897 | en_NZ |
| dc.subject.lcsh | QA76 Computer software | en_NZ |
| dc.title | Spatial data acquisition from motion video | en_NZ |
| dc.type | Discussion Paper | en_NZ |
| dc.description.version | Unpublished | en_NZ |
| otago.bitstream.pages | 27 | en_NZ |
| otago.date.accession | 2011-01-26 19:43:36 | en_NZ |
| otago.school | Information Science | en_NZ |
| otago.openaccess | Open | |
| otago.place.publication | Dunedin, New Zealand | en_NZ |
| dc.identifier.eprints | 1081 | en_NZ |
| otago.school.eprints | Graphics & Vision Research Laboratory | en_NZ |
| otago.school.eprints | Information Science | en_NZ |
| otago.school.eprints | Computer Science | en_NZ |
| dc.description.references | Arnold, R.D. and Binford, T.O., 1980. Geometric Constraints in Stereo Vision. SPIE Vol 238 Image Processing for Missile Guidance (1980), 281—292. Baker, H.H., Bolles, R.C. and Marimont, D.H., 1986. A new technique for obtaining depth information from a moving sensor. Proceedings of the ISPRS Commission II Symposium on Photogrammetric and Remote Sensing Systems for Data Processing and Analysis, 1986. Barnard, S. and Fischer, M., 1982. Computational Stereo. Computing Surveys, Vol 14, Number 4, 553—572. Barron, J., Fleet, D., Beauchemin, S. and Burkitt, T., 1992. Performance of Optical Flow Techniques. IEEE CV&IP 3, 1992, 236—242. Beyer, H., 1992. Automated Dimensional Inspection with Real-Time Photogrammetry. International Archive of Photogrammetry and Remote Sensing, 1992, 722—727. Bolles, R., Baker, H. and Marimont, D., 1987. Epipolar-Plane Image Analysis: An Approach to Determining Structure from Motion. International Journal of Computer Vision, 1, 1987, 7—55. Bruckstein, A., 1988. On Shape from Shading. Computer Vision, Graphics and Image Processing 44, 139—154. Cappellini, V., Mecocci, A., Renault, S., 1987. Digital Processing of Stereo Images and Three Dimensional Reconstruction Techniques. Time-Varying Image Processing and Moving Object Recognition, 105—115. Chin, R. and Dyer, C., 1986. Model-Based Recognition in Robot Vision. Computing Surveys, Vol 18 No 1, March 1986, 67—108. Clarke, T.A., Cooper, M.A.R., Chen, J. and Robson, S., 1995. Automated Three Dimensional Measurement Using Multiple CCD Camera Views. Photogrammetric Record, Vol 15 No 85, April 1995, 27—42. Erez, M.T. and Dorrer, E., 1984. Photogrammetic Data Acquistion using an Interactive Computer Graphics Systems. Photogrammetric Engineering and Remote Sensing, Vol 50, February 1984, 183—188. Fraser, C., 1988. State of the Art in Industrial Photogrammetry. International Archive of Photogrammetry and Remote Sensing, 27(B5), 166—181. Fraser, C. and Shortis, M., 1994. Industrial Inspection Using a Still Video Camera. Proceedings Resource Technology ’94, Melbourne, Australia, 362—375. Klette, R., Mehren, D. and Rodehorst, V., 1995. An Application of Surface Reconstruction from Rotational Motion. Real-Time Imaging, 1 (1995) 127—138. Koch, R., 1992. Model-Based 3D Scene Analysis from Stereoscopic Image Sequences. International Archive of Photogrammetry and Remote Sensing, 1992, 427—433. Kölbl, O., Chardonnens, B., Gilliéron, P.-Y., Hersch, R.D. and Lutz, S., 1991. The DSR15T A System for Automatic Image Correlation. Proceedings of ASPRS/ACSM/ AUTO-CARTO 10, Baltimore 1991. Lee, K. and Jay Kuo, C.-C., 1992. Shape Reconstruction from Photometric Stereo. IEEE CV&IP 3, 1992, 479—484. Marr, D., 1982. Section 3.3: Stereopsis. Vision, 111—159. WH Freeman 1982. Peipe, J. and Schneider, C.-T., 1995. High Resolution Still Video Camera for Industrial Photogrammetry. Photogrammetric Record, Vol 15 No 85, April 1995, 135—139. Rivett, L.J., 1983. The Assessment of Post-Operative Swelling by Analytical Photogrammetry. Australiasian Physical & Engineering Science in Medicine (1983), Vol 6 No 3, 138—142. Rosenholm, D., 1987a. Least Squares Matching Method: Some Experimental Results. Photogrammetric Record, 12(70): 493—512 October 1987. Rosenholm, D., 1987b. Empirical Investigation of Optimal Window Size Using the Least Squares Image Matching Method. Photogrammetria 42 (1987), 113—125. Sheng Jin and Yunming Li, 1988. Acquiring Range Data in the Binocular 3-D Computer Vision using Edge-Based Hierarchical Matching. IAPR Workshop on CV, October 12-14, 1988, Tokyo. Trivedi, H., 1985. A Computational Theory of Stereo Vision. IEEE 1985 277—282. Ulupinar, F. and Nevatia, R., 1995. Shape from Contour: Straight Homogeneous Generalized Cylinders and Constant Cross Section Generalized Cylinders. IEEE Transactions on Pattern Analysis and Machine Intelligence, Vol 17 No 2, February 1995, 120—135. Ulupinar, F. and Nevatia, R., 1992. Recovery of 3-D Objects with Multiple Curved Surfaces from 2-D Contours. IEEE CV&IP 3, 1992. Zheng, J. Y., 1994. Acquiring 3-D Models from Sequences of Contours. IEEE Transactions on Pattern Analysis and Machine Intelligence, Vol 16 No 2, February 1994. Zheng, Y., Jones, D.G., Billings, S.A., Mayhew, J.E.W. and Frisby, J.P., 1990. SWITCHER: A Stereo Algorithm for Ground Plane Obstacle Detection. Image and Vision Computing, Vol 8 Num 1, February 1990. | en_NZ |
| otago.relation.number | 96/25i | en_NZ |
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This item appears in the following Collection(s)
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Information Science [393]
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Computer Science collection [32]
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Discussion Paper [366]
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Graphics and Vision Research [6]
