Exploiting the generic viewpoint assumption

Freeman, William T.

doi:10.1007/bf00208721

Cited by 24 publications

(12 citation statements)

References 67 publications

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“…This is always the case in our study. In fact, research has been done regarding the generic view assumption and the rareness of accidental views [4].…”

Section: Discussionmentioning

confidence: 99%

Real-Time Feature Matching using Adaptive and Spatially Distributed Classification Trees

Boffy¹,

Tsin²,

Genç³

2006

Procedings of the British Machine Vision Conference 2006

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This paper presents a method for real-time wide-baseline feature matching. The approach is based on the work of Lepetit and colleagues [9], where randomized decision trees are trained to establish correspondences between detected features in a training image, and those in input frames. Though extremely promising, their actual results can vary depending on the viewpoint and illumination conditions. We combine two approaches to alleviate its limitations. The first aims to update the trees at run-time, adapting them to the actual viewing conditions. The second consists in spatially distributing the trees, so that each of them models a certain viewing volume more precisely. The result is a more stable matching method that significantly extends detectable range and is much more robust to illumination changes, such as cast shadows or reflections.

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“…This is always the case in our study. In fact, research has been done regarding the generic view assumption and the rareness of accidental views [4].…”

Section: Discussionmentioning

confidence: 99%

Real-Time Feature Matching using Adaptive and Spatially Distributed Classification Trees

Boffy¹,

Tsin²,

Genç³

2006

Procedings of the British Machine Vision Conference 2006

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“…We are presently exploring the possibility ofquantifying the information objectively present in a given view (see, e.g., Freeman, 1994Freeman, , 1996Weinshall, Werman, & Tishby, 1996), in order to relate judged goodness and recognition times to objective image properties (the work ofCutzu & Edelman, 1994, shows that this does not necessarily preclude the potential of accounting for subject-specific, idiosyncratic factors), but this is beyond the scope of the present note. …”

Section: Discussionmentioning

confidence: 99%

Recognition times of different views of 56 depth-rotated objects: A note concerning Verfaillie and Boutsen (1995)

Boutsen

Lamberts

Verfaillie

1998

Perception & Psychophysics

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The present study examines the effect of the goodness of view on the minimal exposure time required to recognize depth-rotated objects. In a previous study, Verfaillie and Boutsen (1995) derived scales of goodness of view, using a new corpus of images of depth-rotated objects. In the present experiment, a subset of this corpus (five views of 56 objects) is used to determine the recognition exposure time for each view, by increasing exposure time across successive presentations until the object is recognized. The results indicate that, for two thirds of the objects, good views are recognized more frequently and have lower recognition exposure times than bad views.Depending on the relation between the observer and the viewed object, a three-dimensional (3-D) object can project to a multitude of different two-dimensional (2-D) retinal images. In addition, there are an infinite number ofpossible 3-D worlds that project onto the same 2-D image. Nevertheless, the visual system, under some circumstances, exhibits object constancy or viewpoint invariance (Humphreys & Quinlan, 1987;Verfaillie, 1992).One transformation that can thoroughly change the projected shape ofan object is a depth rotation. Effects ofdepth rotations on object recognition have been studied with the use ofa variety ofstimuli, tasks, subjects, and methods (see, e.g.,

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“…The elevation of the camera varies by approximately 25 degrees with respect to the object, and the extent of scale variation across images is about 10%. For some of our images, the generic viewpoint assumption is violated [15]; for example two of the legs of the chair in Figure 4(a), second row, fourth column, are accidentally aligned.…”

Section: Methodsmentioning

confidence: 99%

Object Recognition by a Cascade of Edge Probes

Carmichael¹,

Hebert²

2002

Procedings of the British Machine Vision Conference 2002

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We frame the problem of object recognition from edge cues in terms of determining whether individual edge pixels belong to the target object or to clutter, based on the configuration of edges in their vicinity. A classifier solves this problem by computing sparse, localized edge features at image locations determined at training time. In order to save computation and solve the aperture problem, we apply a cascade of these classifiers to the image, each of which computes edge features over larger image regions than its predecessors. Experiments apply this approach to the recognition of real objects with holes and wiry components in cluttered scenes under arbitrary out-of-image-plane rotation.

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Exploiting the generic viewpoint assumption

Cited by 24 publications

References 67 publications

Real-Time Feature Matching using Adaptive and Spatially Distributed Classification Trees

Real-Time Feature Matching using Adaptive and Spatially Distributed Classification Trees

Recognition times of different views of 56 depth-rotated objects: A note concerning Verfaillie and Boutsen (1995)

Object Recognition by a Cascade of Edge Probes

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