Ruan Lakemond scite author profile

Affine covariant local image features are a powerful tool for many applications, including matching and calibrating wide baseline images. Local feature extractors that use a saliency map to locate features require adaptation processes in order to extract affine covariant features. The most effective extractors make use of the second moment matrix (SMM) to iteratively estimate the affine shape of local image regions. This paper shows that the Hessian matrix can be used to estimate local affine shape in a similar fashion to the SMM. The Hessian matrix requires significantly less computation effort than the SMM, allowing more efficient affine adaptation. Experimental results indicate that using the Hessian matrix in conjunction with a feature extractor that selects features in regions with high second order gradients delivers equivalent quality correspondences in less than 17% of the processing time, compared to the same extractor using the SMM.

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Affine Adaptation of Local Image Features Using the Hessian Matrix

Lakemond

Fookes

Sridharan

2009

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An Exploration of Feature Detector Performance in the Thermal-Infrared Modality

Vidas

Lakemond

Denman

et al. 2011

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Thermal-infrared images have superior statistical properties compared with visible-spectrum images in many low-light or no-light scenarios. However, a detailed understanding of feature detector performance in the thermal modality lags behind that of the visible modality. To address this, the first comprehensive study on feature detector performance on thermal-infrared images is conducted. A dataset is presented which explores a total of ten different environments with a range of statistical properties. An investigation is conducted into the effects of several digital and physical image transformations on detector repeatability in these environments. The effect of non-uniformity noise, unique to the thermal modality, is analyzed. The accumulation of sensor non-uniformities beyond the minimum possible level was found to have only a small negative effect. A limiting of feature counts was found to improve the repeatability performance of several detectors. Most other image transformations had predictable effects on feature stability. The best-performing detector varied considerably depending on the nature of the scene and the test.

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Ruan Lakemond

A Mask-Based Approach for the Geometric Calibration of Thermal-Infrared Cameras

Semi-supervised intelligent surveillance system for secure environments

Hessian-Based Affine Adaptation of Salient Local Image Features

Affine Adaptation of Local Image Features Using the Hessian Matrix

An Exploration of Feature Detector Performance in the Thermal-Infrared Modality

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