by Simone Madeo, Miroslaw Bober
Abstract:
Local feature descriptors underpin many diverse applications, supporting object recognition, image registration, database search, 3D reconstruction and more. The recent phenomenal growth in mobile devices and mobile computing in general has created demand for descriptors that are not only discriminative, but also compact in size and fast to extract and match. In response, a large number of binary descriptors have been proposed, each claiming to overcome some limitations of the predecessors. This paper provides a comprehensive evaluation of several promising binary designs. We show that existing evaluation methodologies are not sufficient to fully characterize descriptors performance and propose a new evaluation protocol and a challenging dataset. In contrast to the previous reviews, we investigate the effects of the matching criteria, operating points and compaction methods, showing that they all have a major impact on the systems design and performance. Finally, we provide descriptor extraction times for both general-purpose systems and mobile devices, in order to better understand the real complexity of the extraction task. The objective is to provide a comprehensive reference and a guide that will help in selection and design of the future descriptors.
Reference:
Simone Madeo, Miroslaw Bober, "Fast, Compact and Discriminative: Evaluation of Binary Descriptors for Mobile Applications", In IEEE Transactions on Multimedia, vol. PP, no. 99, pp. 1-1, 2016.
Bibtex Entry:
@Article{7583687,
author = {Simone Madeo and Miroslaw Bober},
title = {Fast, Compact and Discriminative: Evaluation of Binary Descriptors for Mobile Applications},
journal = {IEEE Transactions on Multimedia},
year = {2016},
volume = {PP},
number = {99},
pages = {1-1},
issn = {1520-9210},
abstract = {Local feature descriptors underpin many diverse applications, supporting object recognition, image registration, database search, 3D reconstruction and more. The recent phenomenal growth in mobile devices and mobile computing in general has created demand for descriptors that are not only discriminative, but also compact in size and fast to extract and match. In response, a large number of binary descriptors have been proposed, each claiming to overcome some limitations of the predecessors. This paper provides a comprehensive evaluation of several promising binary designs. We show that existing evaluation methodologies are not sufficient to fully characterize descriptors performance and propose a new evaluation protocol and a challenging dataset. In contrast to the previous reviews, we investigate the effects of the matching criteria, operating points and compaction methods, showing that they all have a major impact on the systems design and performance. Finally, we provide descriptor extraction times for both general-purpose systems and mobile devices, in order to better understand the real complexity of the extraction task. The objective is to provide a comprehensive reference and a guide that will help in selection and design of the future descriptors.},
doi = {10.1109/TMM.2016.2615521},
keywords = {Detectors;Feature extraction;Histograms;Mobile applications;Mobile handsets;Robustness;Visualization;Descriptor benchmarking;binary descriptor;image retrieval;local feature descriptor},
url = {http://epubs.surrey.ac.uk/812598/1/Madeo_MM-006833.pdf},
}