A recursive approach to space resection using straight lines

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Data

1996-01-01

Autores

Tommaselli, Antonio Maria Garcia [UNESP]
Tozzi, Clésio Luis

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Resumo

An approach using straight lines as features to solve the photogrammetric space resection problem is presented. An explicit mathematical model relating straight lines, in both object and image space, is used. Based on this model, Kalman Filtering is applied to solve the space resection problem. The recursive property of the filter is used in an iterative process which uses the sequentially estimated camera location parameters to feedback to the feature extraction process in the image. This feedback process leads to a gradual reduction of the image space for feature searching, and consequently eliminates the bottleneck due to the high computational cost of the image segmentation phase. It also enables feature extraction and the determination of feature correspondence in image and object space in an automatic way, i.e., without operator interference. Results obtained from simulated and real data show that highly accurate space resection parameters are obtained as well as a progressive processing time reduction. The obtained accuracy, the automatic correspondence process, and the short related processing time show that the proposed approach can be used in many real-time machine vision systems, making possible the implementation of applications not feasible until now.

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Palavras-chave

feature extraction, photogrammetry, recursive filtering, space resection

Como citar

Photogrammetric Engineering and Remote Sensing, v. 62, n. 1, p. 57-66, 1996.